/*
 * @(#)HTTPConnection.java   0.3-3 06/05/2001
 *
 *  This file is part of the HTTPClient package
 *  Copyright (C) 1996-2001 Ronald Tschal�r
 *
 *  This library is free software; you can redistribute it and/or
 *  modify it under the terms of the GNU Lesser General Public
 *  License as published by the Free Software Foundation; either
 *  version 2 of the License, or (at your option) any later version.
 *
 *  This library is distributed in the hope that it will be useful,
 *  but WITHOUT ANY WARRANTY; without even the implied warranty of
 *  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
 *  Lesser General Public License for more details.
 *
 *  You should have received a copy of the GNU Lesser General Public
 *  License along with this library; if not, write to the Free
 *  Software Foundation, Inc., 59 Temple Place, Suite 330, Boston,
 *  MA 02111-1307, USA
 *
 *  For questions, suggestions, bug-reports, enhancement-requests etc.
 *  I may be contacted at:
 *
 *  ronald@innovation.ch
 *
 *  The HTTPClient's home page is located at:
 *
 *  http://www.innovation.ch/java/HTTPClient/
 *
 */

package org.everrest.http.client;

import org.everrest.core.util.Logger;

import java.applet.Applet;
import java.io.ByteArrayOutputStream;
import java.io.DataOutputStream;
import java.io.FilterOutputStream;
import java.io.IOException;
import java.io.InterruptedIOException;
import java.io.OutputStream;
import java.net.ConnectException;
import java.net.InetAddress;
import java.net.NoRouteToHostException;
import java.net.Socket;
import java.net.SocketException;
import java.net.URL;
import java.net.UnknownHostException;
import java.util.Iterator;
import java.util.List;
import java.util.Map;
import java.util.Vector;

import javax.xml.stream.XMLOutputFactory;
import javax.xml.stream.XMLStreamException;
import javax.xml.stream.XMLStreamWriter;

/**
 * This class implements http protocol requests; it contains most of HTTP/1.1
 * and ought to be unconditionally compliant. Redirections are automatically
 * handled, and authorizations requests are recognized and dealt with via an
 * authorization handler. Only full HTTP/1.0 and HTTP/1.1 requests are
 * generated. HTTP/1.1, HTTP/1.0 and HTTP/0.9 responses are recognized.
 * <P>
 * Using the HTTPClient should be quite simple. First add the import statement '
 * <code>import HTTPClient.*;</code>' to your file(s). Request can then be sent
 * using one of the methods <var>Head()</var>, <var>Get()</var>,
 * <var>Post()</var>, etc in <var>HTTPConnection</var>. These methods all return
 * an instance of <var>HTTPResponse</var> which has methods for accessing the
 * response headers (<var>getHeader()</var>, <var>getHeaderAsInt()</var>, etc),
 * various response info (<var>getStatusCode()</var>,
 * <var>getReasonLine()</var>, etc) and the reponse data (<var>getData()</var>,
 * <var>getText()</var>, and <var>getInputStream()</var>). Following are some
 * examples.
 * <P>
 * If this is in an applet you can retrieve files from your server as follows:
 *
 * <PRE>
 * try
 * {
 *    HTTPConnection con = new HTTPConnection(this);
 *    HTTPResponse rsp = con.Get(&quot;/my_file&quot;);
 *    if (rsp.getStatusCode() &gt;= 300)
 *    {
 *       System.err.println(&quot;Received Error: &quot; + rsp.getReasonLine());
 *       System.err.println(rsp.getText());
 *    }
 *    else
 *       data = rsp.getData();
 *    rsp = con.Get(&quot;/another_file&quot;);
 *    if (rsp.getStatusCode() &gt;= 300)
 *    {
 *       System.err.println(&quot;Received Error: &quot; + rsp.getReasonLine());
 *       System.err.println(rsp.getText());
 *    }
 *    else
 *       other_data = rsp.getData();
 * }
 * catch (IOException ioe)
 * {
 *    System.err.println(ioe.toString());
 * }
 * catch (ModuleException me)
 * {
 *    System.err.println(&quot;Error handling request: &quot; + me.getMessage());
 * }
 * </PRE>
 *
 * This will get the files "/my_file" and "/another_file" and put their contents
 * into byte[]'s accessible via <code>getData()</code>. Note that you need to
 * only create a new <var>HTTPConnection</var> when sending a request to a new
 * server (different host or port); although you may create a new
 * <var>HTTPConnection</var> for every request to the same server this
 * <strong>not</strong> recommended, as various information about the server is
 * cached after the first request (to optimize subsequent requests) and
 * persistent connections are used whenever possible.
 * <P>
 * To POST form data you would use something like this (assuming you have two
 * fields called <var>name</var> and <var>e-mail</var>, whose contents are
 * stored in the variables <var>name</var> and <var>email</var>):
 *
 * <PRE>
 * try
 * {
 *    NVPair form_data[] = new NVPair[2];
 *    form_data[0] = new NVPair(&quot;name&quot;, name);
 *    form_data[1] = new NVPair(&quot;e-mail&quot;, email);
 *    HTTPConnection con = new HTTPConnection(this);
 *    HTTPResponse rsp = con.Post(&quot;/cgi-bin/my_script&quot;, form_data);
 *    if (rsp.getStatusCode() &gt;= 300)
 *    {
 *       System.err.println(&quot;Received Error: &quot; + rsp.getReasonLine());
 *       System.err.println(rsp.getText());
 *    }
 *    else
 *       stream = rsp.getInputStream();
 * }
 * catch (IOException ioe)
 * {
 *    System.err.println(ioe.toString());
 * }
 * catch (ModuleException me)
 * {
 *    System.err.println(&quot;Error handling request: &quot; + me.getMessage());
 * }
 * </PRE>
 *
 * Here the response data is read at leasure via an <var>InputStream</var>
 * instead of all at once into a <var>byte[]</var>.
 * <P>
 * As another example, if you have a URL you're trying to send a request to you
 * would do something like the following:
 *
 * <PRE>
 * try
 * {
 *    URL url = new URL(&quot;http://www.mydomain.us/test/my_file&quot;);
 *    HTTPConnection con = new HTTPConnection(url);
 *    HTTPResponse rsp = con.Put(url.getFile(), &quot;Hello World&quot;);
 *    if (rsp.getStatusCode() &gt;= 300)
 *    {
 *       System.err.println(&quot;Received Error: &quot; + rsp.getReasonLine());
 *       System.err.println(rsp.getText());
 *    }
 *    else
 *       text = rsp.getText();
 * }
 * catch (IOException ioe)
 * {
 *    System.err.println(ioe.toString());
 * }
 * catch (ModuleException me)
 * {
 *    System.err.println(&quot;Error handling request: &quot; + me.getMessage());
 * }
 * </PRE>
 * <P>
 * There are a whole number of methods for each request type; however the
 * general forms are ([...] means that the enclosed is optional):
 * <ul>
 * <li>Head ( file [, form-data [, headers ] ] )
 * <li>Head ( file [, query [, headers ] ] )
 * <li>Get ( file [, form-data [, headers ] ] )
 * <li>Get ( file [, query [, headers ] ] )
 * <li>Post ( file [, form-data [, headers ] ] )
 * <li>Post ( file [, data [, headers ] ] )
 * <li>Post ( file [, stream [, headers ] ] )
 * <li>Put ( file , data [, headers ] )
 * <li>Put ( file , stream [, headers ] )
 * <li>Delete ( file [, headers ] )
 * <li>Options ( file [, headers [, data] ] )
 * <li>Options ( file [, headers [, stream] ] )
 * <li>Trace ( file [, headers ] )
 * </ul>
 *
 * @version 0.3-3 06/05/2001
 * @author Ronald Tschal�r
 */
public class HTTPConnection implements GlobalConstants, HTTPClientModuleConstants
{
   private static final Logger LOG = Logger.getLogger(HTTPConnection.class);

   /** The current version of this package. */
   public final static String version = "RPT-HTTPClient/0.3-3";

   /** The default context */
   private final static Object dflt_context = new Object();

   /** The current context */
   private Object Context = null;

   /** The protocol used on this connection */
   private int Protocol;

   /** The server's protocol version; M.m stored as (M<<16 | m) */
   int ServerProtocolVersion;

   /** Have we gotten the server's protocol version yet? */
   boolean ServProtVersKnown;

   /**
    * The protocol version we send in a request; this is always HTTP/1.1 unless
    * we're talking to a broken server in which case it's HTTP/1.0
    */
   private String RequestProtocolVersion;

   /** The remote host this connection is associated with */
   private String Host;

   /** The remote port this connection is attached to */
   private int Port;

   /** The local address this connection is associated with */
   private InetAddress LocalAddr;

   /** The local port this connection is attached to */
   private int LocalPort;

   /** The current proxy host to use (if any) */
   private String Proxy_Host = null;

   /** The current proxy port */
   private int Proxy_Port;

   /** The default proxy host to use (if any) */
   private static String Default_Proxy_Host = null;

   /** The default proxy port */
   private static int Default_Proxy_Port;

   /** The list of hosts for which no proxy is to be used */
   private static CIHashtable non_proxy_host_list = new CIHashtable();

   private static Vector non_proxy_dom_list = new Vector();

   private static Vector non_proxy_addr_list = new Vector();

   private static Vector non_proxy_mask_list = new Vector();

   /** The socks server to use */
   private SocksClient Socks_client = null;

   /** The default socks server to use */
   private static SocksClient Default_Socks_client = null;

   /** the current stream demultiplexor */
   private StreamDemultiplexor input_demux = null;

   /** a list of active stream demultiplexors */
   LinkedList DemuxList = new LinkedList();

   /** a list of active requests */
   private LinkedList RequestList = new LinkedList();

   /** does the server support keep-alive's? */
   private boolean doesKeepAlive = false;

   /** have we been able to determine the above yet? */
   private boolean keepAliveUnknown = true;

   /** the maximum number of requests over a HTTP/1.0 keep-alive connection */
   private int keepAliveReqMax = -1;

   /** the number of requests over a HTTP/1.0 keep-alive connection left */
   private int keepAliveReqLeft;

   /** hack to force buffering of data instead of using chunked T-E */
   private static boolean no_chunked = false;

   /** hack to force HTTP/1.0 requests */
   private static boolean force_1_0 = false;

   /** hack to be able to disable pipelining */
   private static boolean neverPipeline = false;

   /** hack to be able to disable keep-alives */
   private static boolean noKeepAlives = false;

   /** hack to work around M$ bug */
   private static boolean haveMSLargeWritesBug = false;

   /**
    * hack to only enable defered handling of streamed requests when configured
    * to do so.
    */
   static boolean deferStreamed = false;

   /** the default timeout to use for new connections */
   private static int DefaultTimeout = 0;

   /** the timeout to use for reading responses */
   private int Timeout;

   /** The list of default http headers */
   private NVPair[] DefaultHeaders = new NVPair[0];

   /** The default list of modules (as a Vector of Class objects) */
   private static Vector DefaultModuleList;

   /** The list of modules (as a Vector of Class objects) */
   private Vector ModuleList;

   /** controls whether modules are allowed to interact with user */
   private static boolean defaultAllowUI = true;

   /** controls whether modules are allowed to interact with user */
   private boolean allowUI;

   private static final Logger log = Logger.getLogger(HTTPConnection.class);

   static
   {
      /*
       * Let's try and see if we can figure out whether any proxies are being
       * used.
       */

      try
      // JDK 1.1 naming
      {
         String host = System.getProperty("http.proxyHost");
         if (host == null)
            throw new Exception(); // try JDK 1.0.x naming
         int port = Integer.getInteger("http.proxyPort", -1).intValue();

         if (log.isDebugEnabled())
            log.debug("using proxy " + host + ":" + port);

         setProxyServer(host, port);
      }
      catch (Exception e)
      {
         try
         // JDK 1.0.x naming
         {
            if (Boolean.getBoolean("proxySet"))
            {
               String host = System.getProperty("proxyHost");
               int port = Integer.getInteger("proxyPort", -1).intValue();

               if (log.isDebugEnabled())
                  log.debug("using proxy " + host + ":" + port);

               setProxyServer(host, port);
            }
         }
         catch (Exception ee)
         {
            Default_Proxy_Host = null;
         }
      }

      /*
       * now check for the non-proxy list
       */
      try
      {
         String hosts = System.getProperty("HTTPClient.nonProxyHosts");
         if (hosts == null)
            hosts = System.getProperty("http.nonProxyHosts");

         String[] list = Util.splitProperty(hosts);
         dontProxyFor(list);
      }
      catch (Exception e)
      {
      }

      /*
       * we can't turn the JDK SOCKS handling off, so we don't use the properties
       * 'socksProxyHost' and 'socksProxyPort'. Instead we define
       * 'HTTPClient.socksHost', 'HTTPClient.socksPort' and
       * 'HTTPClient.socksVersion'.
       */
      try
      {
         String host = System.getProperty("HTTPClient.socksHost");
         if (host != null && host.length() > 0)
         {
            int port = Integer.getInteger("HTTPClient.socksPort", -1).intValue();
            int version = Integer.getInteger("HTTPClient.socksVersion", -1).intValue();

            if (log.isDebugEnabled())
               log.debug("using SOCKS " + host + ":" + port);

            if (version == -1)
               setSocksServer(host, port);
            else
               setSocksServer(host, port, version);
         }
      }
      catch (Exception e)
      {
         Default_Socks_client = null;
      }

      // Set up module list

      // String modules = "HTTPClient.RetryModule|" +
      // "HTTPClient.CookieModule|" +
      // "HTTPClient.RedirectionModule|" +
      // "HTTPClient.AuthorizationModule|" +
      // "HTTPClient.DefaultModule|" +
      // "HTTPClient.TransferEncodingModule|" +
      // "HTTPClient.ContentMD5Module|" +
      // "HTTPClient.ContentEncodingModule";

      String modules = "org.everrest.http.client.RetryModule|" //
         + "org.everrest.http.client.CookieModule|" //
         + "org.everrest.http.client.RedirectionModule|" //
         + "org.everrest.http.client.AuthorizationModule|" //
         + "org.everrest.http.client.DefaultModule|" //
         + "org.everrest.http.client.TransferEncodingModule|" //
         + "org.everrest.http.client.ContentMD5Module|" //
         + "org.everrest.http.client.ContentEncodingModule";

      boolean in_applet = false;
      try
      {
         modules = System.getProperty("HTTPClient.Modules", modules);
      }
      catch (SecurityException se)
      {
         in_applet = true;
      }

      DefaultModuleList = new Vector();
      String[] list = Util.splitProperty(modules);
      for (int idx = 0; idx < list.length; idx++)
      {
         try
         {
            String mname = list[idx];
            DefaultModuleList.addElement(Class.forName(mname));

            if (log.isDebugEnabled())
               log.debug("added module " + list[idx]);

         }
         catch (ClassNotFoundException cnfe)
         {
            if (!in_applet)
               throw new NoClassDefFoundError(cnfe.getMessage());

            /*
             * Just ignore it. This allows for example applets to just load the
             * necessary modules - if you don't need a module then don't provide it,
             * and it won't be added to the list. The disadvantage is that if you
             * accidently misstype a module name this will lead to a "silent" error.
             */
         }
      }

      /*
       * Hack: disable pipelining
       */
      try
      {
         neverPipeline = Boolean.getBoolean("HTTPClient.disable_pipelining");
         if (neverPipeline)
         {
            if (log.isDebugEnabled())
               log.debug("disabling pipelining");

         }
      }
      catch (Exception e)
      {
         // nothing to do
      }

      /*
       * Hack: disable keep-alives
       */
      try
      {
         noKeepAlives = Boolean.getBoolean("HTTPClient.disableKeepAlives");
         if (noKeepAlives)
         {
            if (log.isDebugEnabled())
               log.debug("disabling keep-alives");

         }
      }
      catch (Exception e)
      {
         // notning to do
      }

      /*
       * Hack: force HTTP/1.0 requests
       */
      try
      {
         force_1_0 = Boolean.getBoolean("HTTPClient.forceHTTP_1.0");
         if (force_1_0)
         {
            if (log.isDebugEnabled())
               log.debug("forcing HTTP/1.0 requests");

         }
      }
      catch (Exception e)
      {
      }

      /*
       * Hack: prevent chunking of request data
       */
      try
      {
         no_chunked = Boolean.getBoolean("HTTPClient.dontChunkRequests");
         if (no_chunked)
         {
            if (log.isDebugEnabled())
               log.debug("never chunking requests");

         }
      }
      catch (Exception e)
      {
      }

      /*
       * M$ bug: large writes hang the stuff
       */
      try
      {
         if (System.getProperty("os.name").indexOf("Windows") >= 0
            && System.getProperty("java.version").startsWith("1.1"))
            haveMSLargeWritesBug = true;
         if (haveMSLargeWritesBug)
         {
            if (log.isDebugEnabled())
               log.debug("splitting large writes into 20K chunks (M$ bug)");

         }
      }
      catch (Exception e)
      {
      }

      /*
       * Deferring the handling of responses to requests which used an output
       * stream is new in V0.3-3. Because it can cause memory leaks for apps which
       * aren't expecting this, we only enable this feature if explicitly
       * requested to do so.
       */
      try
      {
         deferStreamed = Boolean.getBoolean("HTTPClient.deferStreamed");
         if (deferStreamed)
         {
            if (log.isDebugEnabled())
               log.debug("enabling defered handling of responses to streamed requests");

         }
      }
      catch (Exception e)
      {
      }
   }

   // Constructors

   /**
    * Constructs a connection to the host from where the applet was loaded. Note
    * that current security policies only let applets connect home.
    *
    * @param applet the current applet
    */
   public HTTPConnection(Applet applet) throws ProtocolNotSuppException
   {
      this(applet.getCodeBase().getProtocol(), applet.getCodeBase().getHost(), applet.getCodeBase().getPort());
   }

   /**
    * Constructs a connection to the specified host on port 80
    *
    * @param host the host
    */
   public HTTPConnection(String host)
   {
      Setup(HTTP, host, 80, null, -1);
   }

   /**
    * Constructs a connection to the specified host on the specified port
    *
    * @param host the host
    * @param port the port
    */
   public HTTPConnection(String host, int port)
   {
      Setup(HTTP, host, port, null, -1);
   }

   /**
    * Constructs a connection to the specified host on the specified port, using
    * the specified protocol (currently only "http" is supported).
    *
    * @param prot the protocol
    * @param host the host
    * @param port the port, or -1 for the default port
    * @exception ProtocolNotSuppException if the protocol is not HTTP
    */
   public HTTPConnection(String prot, String host, int port) throws ProtocolNotSuppException
   {
      this(prot, host, port, null, -1);
   }

   /**
    * Constructs a connection to the specified host on the specified port, using
    * the specified protocol (currently only "http" is supported), local
    * address, and local port.
    *
    * @param prot the protocol
    * @param host the host
    * @param port the port, or -1 for the default port
    * @param localAddr the local address to bind to
    * @param lcoalPort the local port to bind to
    * @exception ProtocolNotSuppException if the protocol is not HTTP
    */
   public HTTPConnection(String prot, String host, int port, InetAddress localAddr, int localPort)
      throws ProtocolNotSuppException
   {
      prot = prot.trim().toLowerCase();

      // if (!prot.equals("http") && !prot.equals("https"))
      if (!prot.equals("http"))
         throw new ProtocolNotSuppException("Unsupported protocol '" + prot + "'");

      if (prot.equals("http"))
         Setup(HTTP, host, port, localAddr, localPort);
      else if (prot.equals("https"))
         Setup(HTTPS, host, port, localAddr, localPort);
      else if (prot.equals("shttp"))
         Setup(SHTTP, host, port, localAddr, localPort);
      else if (prot.equals("http-ng"))
         Setup(HTTP_NG, host, port, localAddr, localPort);
   }

   /**
    * Constructs a connection to the host (port) as given in the url.
    *
    * @param url the url
    * @exception ProtocolNotSuppException if the protocol is not HTTP
    */
   public HTTPConnection(URL url) throws ProtocolNotSuppException
   {
      this(url.getProtocol(), url.getHost(), url.getPort());
   }

   /**
    * Constructs a connection to the host (port) as given in the uri.
    *
    * @param uri the uri
    * @exception ProtocolNotSuppException if the protocol is not HTTP
    */
   public HTTPConnection(URI uri) throws ProtocolNotSuppException
   {
      this(uri.getScheme(), uri.getHost(), uri.getPort());
   }

   /**
    * Sets the class variables. Must not be public.
    *
    * @param prot the protocol
    * @param host the host
    * @param port the port
    * @param localAddr the local address to bind to; if null, it's ignored
    * @param localPort the local port to bind to
    */
   private void Setup(int prot, String host, int port, InetAddress localAddr, int localPort)
   {
      Protocol = prot;
      Host = host.trim().toLowerCase();
      Port = port;
      LocalAddr = localAddr;
      LocalPort = localPort;

      if (Port == -1)
         Port = URI.defaultPort(getProtocol());

      if (Default_Proxy_Host != null && !matchNonProxy(Host))
         setCurrentProxy(Default_Proxy_Host, Default_Proxy_Port);
      else
         setCurrentProxy(null, 0);

      Socks_client = Default_Socks_client;
      Timeout = DefaultTimeout;
      ModuleList = (Vector)DefaultModuleList.clone();
      allowUI = defaultAllowUI;
      if (noKeepAlives)
         setDefaultHeaders(new NVPair[]{new NVPair("Connection", "close")});
   }

   /**
    * Determines if the given host matches any entry in the non-proxy list.
    *
    * @param host the host to match - must be trim()'d and lowercase
    * @return true if a match is found, false otherwise
    * @see #dontProxyFor(java.lang.String)
    */
   private boolean matchNonProxy(String host)
   {
      // Check host name list

      if (non_proxy_host_list.get(host) != null)
         return true;

      // Check domain name list

      for (int idx = 0; idx < non_proxy_dom_list.size(); idx++)
         if (host.endsWith((String)non_proxy_dom_list.elementAt(idx)))
            return true;

      // Check IP-address and subnet list

      if (non_proxy_addr_list.size() == 0)
         return false;

      InetAddress[] host_addr;
      try
      {
         host_addr = InetAddress.getAllByName(host);
      }
      catch (UnknownHostException uhe)
      {
         return false;
      } // maybe the proxy has better luck

      for (int idx = 0; idx < non_proxy_addr_list.size(); idx++)
      {
         byte[] addr = (byte[])non_proxy_addr_list.elementAt(idx);
         byte[] mask = (byte[])non_proxy_mask_list.elementAt(idx);

         ip_loop : for (int idx2 = 0; idx2 < host_addr.length; idx2++)
         {
            byte[] raw_addr = host_addr[idx2].getAddress();
            if (raw_addr.length != addr.length)
               continue;

            for (int idx3 = 0; idx3 < raw_addr.length; idx3++)
            {
               if ((raw_addr[idx3] & mask[idx3]) != (addr[idx3] & mask[idx3]))
                  continue ip_loop;
            }
            return true;
         }
      }

      return false;
   }

   // Methods

   /**
    * Sends the HEAD request. This request is just like the corresponding GET
    * except that it only returns the headers and no data.
    *
    * @see #Get(java.lang.String)
    * @param file the absolute path of the file
    * @return an HTTPResponse structure containing the response
    * @exception java.io.IOException when an exception is returned from the
    *            socket.
    * @exception ModuleException if an exception is encountered in any module.
    */
   public HTTPResponse Head(String file) throws IOException, ModuleException
   {
      return Head(file, (String)null, null);
   }

   /**
    * Sends the HEAD request. This request is just like the corresponding GET
    * except that it only returns the headers and no data.
    *
    * @see #Get(java.lang.String, HTTPClient.NVPair[])
    * @param file the absolute path of the file
    * @param form_data an array of Name/Value pairs
    * @return an HTTPResponse structure containing the response
    * @exception java.io.IOException when an exception is returned from the
    *            socket.
    * @exception ModuleException if an exception is encountered in any module.
    */
   public HTTPResponse Head(String file, NVPair form_data[]) throws IOException, ModuleException
   {
      return Head(file, form_data, null);
   }

   /**
    * Sends the HEAD request. This request is just like the corresponding GET
    * except that it only returns the headers and no data.
    *
    * @see #Get(java.lang.String, HTTPClient.NVPair[], HTTPClient.NVPair[])
    * @param file the absolute path of the file
    * @param form_data an array of Name/Value pairs
    * @param headers additional headers
    * @return an HTTPResponse structure containing the response
    * @exception java.io.IOException when an exception is returned from the
    *            socket.
    * @exception ModuleException if an exception is encountered in any module.
    */
   public HTTPResponse Head(String file, NVPair[] form_data, NVPair[] headers) throws IOException, ModuleException
   {
      String File = stripRef(file), query = Codecs.nv2query(form_data);
      if (query != null && query.length() > 0)
         File += "?" + query;

      return setupRequest("HEAD", File, headers, null, null);
   }

   /**
    * Sends the HEAD request. This request is just like the corresponding GET
    * except that it only returns the headers and no data.
    *
    * @see #Get(java.lang.String, java.lang.String)
    * @param file the absolute path of the file
    * @param query the query string; it will be urlencoded
    * @return an HTTPResponse structure containing the response
    * @exception java.io.IOException when an exception is returned from the
    *            socket.
    * @exception ModuleException if an exception is encountered in any module.
    */
   public HTTPResponse Head(String file, String query) throws IOException, ModuleException
   {
      return Head(file, query, null);
   }

   /**
    * Sends the HEAD request. This request is just like the corresponding GET
    * except that it only returns the headers and no data.
    *
    * @see #Get(java.lang.String, java.lang.String, HTTPClient.NVPair[])
    * @param file the absolute path of the file
    * @param query the query string; it will be urlencoded
    * @param headers additional headers
    * @return an HTTPResponse structure containing the response
    * @exception java.io.IOException when an exception is returned from the
    *            socket.
    * @exception ModuleException if an exception is encountered in any module.
    */
   public HTTPResponse Head(String file, String query, NVPair[] headers) throws IOException, ModuleException
   {
      String File = stripRef(file);
      if (query != null && query.length() > 0)
         File += "?" + Codecs.URLEncode(query);

      return setupRequest("HEAD", File, headers, null, null);
   }

   /**
    * GETs the file.
    *
    * @param file the absolute path of the file
    * @return an HTTPResponse structure containing the response
    * @exception java.io.IOException when an exception is returned from the
    *            socket.
    * @exception ModuleException if an exception is encountered in any module.
    */
   public HTTPResponse Get(String file) throws IOException, ModuleException
   {
      return Get(file, (String)null, null);
   }

   /**
    * GETs the file with a query consisting of the specified form-data. The data
    * is urlencoded, turned into a string of the form
    * "name1=value1&name2=value2" and then sent as a query string.
    *
    * @param file the absolute path of the file
    * @param form_data an array of Name/Value pairs
    * @return an HTTPResponse structure containing the response
    * @exception java.io.IOException when an exception is returned from the
    *            socket.
    * @exception ModuleException if an exception is encountered in any module.
    */
   public HTTPResponse Get(String file, NVPair form_data[]) throws IOException, ModuleException
   {
      return Get(file, form_data, null);
   }

   /**
    * GETs the file with a query consisting of the specified form-data. The data
    * is urlencoded, turned into a string of the form
    * "name1=value1&name2=value2" and then sent as a query string.
    *
    * @param file the absolute path of the file
    * @param form_data an array of Name/Value pairs
    * @param headers additional headers
    * @return an HTTPResponse structure containing the response
    * @exception java.io.IOException when an exception is returned from the
    *            socket.
    * @exception ModuleException if an exception is encountered in any module.
    */
   public HTTPResponse Get(String file, NVPair[] form_data, NVPair[] headers) throws IOException, ModuleException
   {
      String File = stripRef(file), query = Codecs.nv2query(form_data);
      if (query != null && query.length() > 0)
         File += "?" + query;

      return setupRequest("GET", File, headers, null, null);
   }

   /**
    * GETs the file using the specified query string. The query string is first
    * urlencoded.
    *
    * @param file the absolute path of the file
    * @param query the query
    * @return an HTTPResponse structure containing the response
    * @exception java.io.IOException when an exception is returned from the
    *            socket.
    * @exception ModuleException if an exception is encountered in any module.
    */
   public HTTPResponse Get(String file, String query) throws IOException, ModuleException
   {
      return Get(file, query, null);
   }

   /**
    * GETs the file using the specified query string. The query string is first
    * urlencoded.
    *
    * @param file the absolute path of the file
    * @param query the query string
    * @param headers additional headers
    * @return an HTTPResponse structure containing the response
    * @exception java.io.IOException when an exception is returned from the
    *            socket.
    * @exception ModuleException if an exception is encountered in any module.
    */
   public HTTPResponse Get(String file, String query, NVPair[] headers) throws IOException, ModuleException
   {
      String File = stripRef(file);
      if (query != null && query.length() > 0)
         File += "?" + Codecs.URLEncode(query);

      return setupRequest("GET", File, headers, null, null);
   }

   /**
    * POSTs to the specified file. No data is sent.
    *
    * @param file the absolute path of the file
    * @return an HTTPResponse structure containing the response
    * @exception java.io.IOException when an exception is returned from the
    *            socket.
    * @exception ModuleException if an exception is encountered in any module.
    */
   public HTTPResponse Post(String file) throws IOException, ModuleException
   {
      return Post(file, (byte[])null, null);
   }

   /**
    * POSTs form-data to the specified file. The data is first urlencoded and
    * then turned into a string of the form "name1=value1&name2=value2". A
    * <var>Content-type</var> header with the value
    * <var>application/x-www-form-urlencoded</var> is added.
    *
    * @param file the absolute path of the file
    * @param form_data an array of Name/Value pairs
    * @return an HTTPResponse structure containing the response
    * @exception java.io.IOException when an exception is returned from the
    *            socket.
    * @exception ModuleException if an exception is encountered in any module.
    */
   public HTTPResponse Post(String file, NVPair form_data[]) throws IOException, ModuleException
   {
      NVPair[] headers = {new NVPair("Content-type", "application/x-www-form-urlencoded")};

      return Post(file, Codecs.nv2query(form_data), headers);
   }

   /**
    * POST's form-data to the specified file using the specified headers. The
    * data is first urlencoded and then turned into a string of the form
    * "name1=value1&name2=value2". If no <var>Content-type</var> header is given
    * then one is added with a value of
    * <var>application/x-www-form-urlencoded</var>.
    *
    * @param file the absolute path of the file
    * @param form_data an array of Name/Value pairs
    * @param headers additional headers
    * @return a HTTPResponse structure containing the response
    * @exception java.io.IOException when an exception is returned from the
    *            socket.
    * @exception ModuleException if an exception is encountered in any module.
    */
   public HTTPResponse Post(String file, NVPair form_data[], NVPair headers[]) throws IOException, ModuleException
   {
      int idx;
      for (idx = 0; idx < headers.length; idx++)
         if (headers[idx].getName().equalsIgnoreCase("Content-type"))
            break;
      if (idx == headers.length)
      {
         headers = Util.resizeArray(headers, idx + 1);
         headers[idx] = new NVPair("Content-type", "application/x-www-form-urlencoded");
      }

      return Post(file, Codecs.nv2query(form_data), headers);
   }

   /**
    * POSTs the data to the specified file. The data is converted to an array of
    * bytes using the default character converter. The request is sent using the
    * content-type "application/octet-stream".
    *
    * @param file the absolute path of the file
    * @param data the data
    * @return an HTTPResponse structure containing the response
    * @exception java.io.IOException when an exception is returned from the
    *            socket.
    * @exception ModuleException if an exception is encountered in any module.
    * @see java.lang.String#getBytes()
    */
   public HTTPResponse Post(String file, String data) throws IOException, ModuleException
   {
      return Post(file, data, null);
   }

   /**
    * POSTs the data to the specified file using the specified headers.
    *
    * @param file the absolute path of the file
    * @param data the data
    * @param headers additional headers
    * @return an HTTPResponse structure containing the response
    * @exception java.io.IOException when an exception is returned from the
    *            socket.
    * @exception ModuleException if an exception is encountered in any module.
    * @see java.lang.String#getBytes()
    */
   public HTTPResponse Post(String file, String data, NVPair[] headers) throws IOException, ModuleException
   {
      byte tmp[] = null;

      if (data != null && data.length() > 0)
         tmp = data.getBytes();

      return Post(file, tmp, headers);
   }

   /**
    * POSTs the raw data to the specified file. The request is sent using the
    * content-type "application/octet-stream"
    *
    * @param file the absolute path of the file
    * @param data the data
    * @return an HTTPResponse structure containing the response
    * @exception java.io.IOException when an exception is returned from the
    *            socket.
    * @exception ModuleException if an exception is encountered in any module.
    */
   public HTTPResponse Post(String file, byte data[]) throws IOException, ModuleException
   {
      return Post(file, data, null);
   }

   /**
    * POSTs the raw data to the specified file using the specified headers.
    *
    * @param file the absolute path of the file
    * @param data the data
    * @param headers additional headers
    * @return an HTTPResponse structure containing the response
    * @exception java.io.IOException when an exception is returned from the
    *            socket.
    * @exception ModuleException if an exception is encountered in any module.
    */
   public HTTPResponse Post(String file, byte data[], NVPair[] headers) throws IOException, ModuleException
   {
      if (data == null)
         data = new byte[0]; // POST must always have a CL
      return setupRequest("POST", stripRef(file), headers, data, null);
   }

   /**
    * POSTs the data written to the output stream to the specified file. The
    * request is sent using the content-type "application/octet-stream"
    *
    * @param file the absolute path of the file
    * @param stream the output stream on which the data is written
    * @return an HTTPResponse structure containing the response
    * @exception java.io.IOException when an exception is returned from the
    *            socket.
    * @exception ModuleException if an exception is encountered in any module.
    */
   public HTTPResponse Post(String file, HttpOutputStream stream) throws IOException, ModuleException
   {
      return Post(file, stream, null);
   }

   /**
    * POSTs the data written to the output stream to the specified file using
    * the specified headers.
    *
    * @param file the absolute path of the file
    * @param stream the output stream on which the data is written
    * @param headers additional headers
    * @return an HTTPResponse structure containing the response
    * @exception java.io.IOException when an exception is returned from the
    *            socket.
    * @exception ModuleException if an exception is encountered in any module.
    */
   public HTTPResponse Post(String file, HttpOutputStream stream, NVPair[] headers) throws IOException, ModuleException
   {
      return setupRequest("POST", stripRef(file), headers, null, stream);
   }

   /**
    * PUTs the data into the specified file. The data is converted to an array
    * of bytes using the default character converter. The request ist sent using
    * the content-type "application/octet-stream".
    *
    * @param file the absolute path of the file
    * @param data the data
    * @return an HTTPResponse structure containing the response
    * @exception java.io.IOException when an exception is returned from the
    *            socket.
    * @exception ModuleException if an exception is encountered in any module.
    * @see java.lang.String#getBytes()
    */
   public HTTPResponse Put(String file, String data) throws IOException, ModuleException
   {
      return Put(file, data, null);
   }

   /**
    * PUTs the data into the specified file using the additional headers for the
    * request.
    *
    * @param file the absolute path of the file
    * @param data the data
    * @param headers additional headers
    * @return an HTTPResponse structure containing the response
    * @exception java.io.IOException when an exception is returned from the
    *            socket.
    * @exception ModuleException if an exception is encountered in any module.
    * @see java.lang.String#getBytes()
    */
   public HTTPResponse Put(String file, String data, NVPair[] headers) throws IOException, ModuleException
   {
      byte tmp[] = null;

      if (data != null && data.length() > 0)
         tmp = data.getBytes();

      return Put(file, tmp, headers);
   }

   /**
    * PUTs the raw data into the specified file. The request is sent using the
    * content-type "application/octet-stream".
    *
    * @param file the absolute path of the file
    * @param data the data
    * @return an HTTPResponse structure containing the response
    * @exception java.io.IOException when an exception is returned from the
    *            socket.
    * @exception ModuleException if an exception is encountered in any module.
    */
   public HTTPResponse Put(String file, byte data[]) throws IOException, ModuleException
   {
      return Put(file, data, null);
   }

   /**
    * PUTs the raw data into the specified file using the additional headers.
    *
    * @param file the absolute path of the file
    * @param data the data
    * @param headers any additional headers
    * @return an HTTPResponse structure containing the response
    * @exception java.io.IOException when an exception is returned from the
    *            socket.
    * @exception ModuleException if an exception is encountered in any module.
    */
   public HTTPResponse Put(String file, byte data[], NVPair[] headers) throws IOException, ModuleException
   {
      if (data == null)
         data = new byte[0]; // PUT must always have a CL
      return setupRequest("PUT", stripRef(file), headers, data, null);
   }

   /**
    * PUTs the data written to the output stream into the specified file. The
    * request is sent using the content-type "application/octet-stream".
    *
    * @param file the absolute path of the file
    * @param stream the output stream on which the data is written
    * @return an HTTPResponse structure containing the response
    * @exception java.io.IOException when an exception is returned from the
    *            socket.
    * @exception ModuleException if an exception is encountered in any module.
    */
   public HTTPResponse Put(String file, HttpOutputStream stream) throws IOException, ModuleException
   {
      return Put(file, stream, null);
   }

   /**
    * PUTs the data written to the output stream into the specified file using
    * the additional headers.
    *
    * @param file the absolute path of the file
    * @param stream the output stream on which the data is written
    * @param headers any additional headers
    * @return an HTTPResponse structure containing the response
    * @exception java.io.IOException when an exception is returned from the
    *            socket.
    * @exception ModuleException if an exception is encountered in any module.
    */
   public HTTPResponse Put(String file, HttpOutputStream stream, NVPair[] headers) throws IOException, ModuleException
   {
      return setupRequest("PUT", stripRef(file), headers, null, stream);
   }

   /**
    * Request OPTIONS from the server. If <var>file</var> is "*" then the
    * request applies to the server as a whole; otherwise it applies only to
    * that resource.
    *
    * @param file the absolute path of the resource, or "*"
    * @return an HTTPResponse structure containing the response
    * @exception java.io.IOException when an exception is returned from the
    *            socket.
    * @exception ModuleException if an exception is encountered in any module.
    */
   public HTTPResponse Options(String file) throws IOException, ModuleException
   {
      return Options(file, null, (byte[])null);
   }

   /**
    * Request OPTIONS from the server. If <var>file</var> is "*" then the
    * request applies to the server as a whole; otherwise it applies only to
    * that resource.
    *
    * @param file the absolute path of the resource, or "*"
    * @param headers the headers containing optional info.
    * @return an HTTPResponse structure containing the response
    * @exception java.io.IOException when an exception is returned from the
    *            socket.
    * @exception ModuleException if an exception is encountered in any module.
    */
   public HTTPResponse Options(String file, NVPair[] headers) throws IOException, ModuleException
   {
      return Options(file, headers, (byte[])null);
   }

   /**
    * Request OPTIONS from the server. If <var>file</var> is "*" then the
    * request applies to the server as a whole; otherwise it applies only to
    * that resource.
    *
    * @param file the absolute path of the resource, or "*"
    * @param headers the headers containing optional info.
    * @param data any data to be sent in the optional body
    * @return an HTTPResponse structure containing the response
    * @exception java.io.IOException when an exception is returned from the
    *            socket.
    * @exception ModuleException if an exception is encountered in any module.
    */
   public HTTPResponse Options(String file, NVPair[] headers, byte[] data) throws IOException, ModuleException
   {
      return setupRequest("OPTIONS", stripRef(file), headers, data, null);
   }

   /**
    * Request OPTIONS from the server. If <var>file</var> is "*" then the
    * request applies to the server as a whole; otherwise it applies only to
    * that resource.
    *
    * @param file the absolute path of the resource, or "*"
    * @param headers the headers containing optional info.
    * @param stream an output stream for sending the optional body
    * @return an HTTPResponse structure containing the response
    * @exception java.io.IOException when an exception is returned from the
    *            socket.
    * @exception ModuleException if an exception is encountered in any module.
    */
   public HTTPResponse Options(String file, NVPair[] headers, HttpOutputStream stream) throws IOException,
      ModuleException
   {
      return setupRequest("OPTIONS", stripRef(file), headers, null, stream);
   }

   /**
    * Requests that <var>file</var> be DELETEd from the server.
    *
    * @param file the absolute path of the resource
    * @return an HTTPResponse structure containing the response
    * @exception java.io.IOException when an exception is returned from the
    *            socket.
    * @exception ModuleException if an exception is encountered in any module.
    */
   public HTTPResponse Delete(String file) throws IOException, ModuleException
   {
      return Delete(file, null);
   }

   /**
    * Requests that <var>file</var> be DELETEd from the server.
    *
    * @param file the absolute path of the resource
    * @param headers additional headers
    * @return an HTTPResponse structure containing the response
    * @exception java.io.IOException when an exception is returned from the
    *            socket.
    * @exception ModuleException if an exception is encountered in any module.
    */
   public HTTPResponse Delete(String file, NVPair[] headers) throws IOException, ModuleException
   {
      return setupRequest("DELETE", stripRef(file), headers, null, null);
   }

   /**
    * Requests a TRACE. Headers of particular interest here are "Via" and
    * "Max-Forwards".
    *
    * @param file the absolute path of the resource
    * @param headers additional headers
    * @return an HTTPResponse structure containing the response
    * @exception java.io.IOException when an exception is returned from the
    *            socket.
    * @exception ModuleException if an exception is encountered in any module.
    */
   public HTTPResponse Trace(String file, NVPair[] headers) throws IOException, ModuleException
   {
      return setupRequest("TRACE", stripRef(file), headers, null, null);
   }

   /**
    * Requests a TRACE.
    *
    * @param file the absolute path of the resource
    * @return an HTTPResponse structure containing the response
    * @exception java.io.IOException when an exception is returned from the
    *            socket.
    * @exception ModuleException if an exception is encountered in any module.
    */
   public HTTPResponse Trace(String file) throws IOException, ModuleException
   {
      return Trace(file, null);
   }

   // webdav specific methods

   /**
    * Copy resource or colleaction to URL spesified in <code>destination</code>
    * parameter. If destination resource exist operation will be fail.
    *
    * @param source the source URL.
    * @param destination the destination URL.
    * @param override must destination resource be overwrite.
    * @param norecursive on collection resource it means copy only resource but
    *        not child.
    * @return an HTTPResponse structure containing the response.
    * @exception java.io.IOException when an exception is returned from the
    *            socket.
    * @exception ModuleException if an exception is encountered in any module.
    */
   public HTTPResponse Copy(String source, String destination, boolean override, boolean norecursive)
      throws IOException, ModuleException
   {
      NVPair destinationPair = new NVPair("Destination", destination);
      NVPair overridePair = new NVPair("Overwrite", override ? "T" : "F");
      NVPair depthPair = new NVPair("Depth", norecursive ? "0" : "infinity");
      return setupRequest("COPY", source, new NVPair[]{destinationPair, overridePair, depthPair}, null, null);
   }

   /**
    * Copy resource or colleaction to URL spesified in <code>destination</code>
    * parameter. If destination resource exist operation will be fail.
    *
    * @param source the source URL.
    * @param destination the destination URL.
    * @return an HTTPResponse structure containing the response.
    * @exception java.io.IOException when an exception is returned from the
    *            socket.
    * @exception ModuleException if an exception is encountered in any module.
    */
   public HTTPResponse Copy(String source, String destination) throws IOException, ModuleException
   {
      return Copy(source, destination, false, false);
   }

   /**
    * Move resource or colleaction to URL spesified in <code>destination</code>
    * parameter.
    *
    * @param source the source URL.
    * @param destination the destination URL.
    * @param override must destination resource be overwrite.
    * @return an HTTPResponse structure containing the response.
    * @exception java.io.IOException when an exception is returned from the
    *            socket.
    * @exception ModuleException if an exception is encountered in any module.
    */
   public HTTPResponse Move(String source, String destination, boolean override) throws IOException, ModuleException
   {
      NVPair destinationPair = new NVPair("Destination", destination);
      NVPair overridePair = new NVPair("Overwrite", override ? "T" : "F");
      return setupRequest("MOVE", source, new NVPair[]{destinationPair, overridePair}, null, null);
   }

   /**
    * Move resource or colleaction to URL spesified in <code>destination</code>
    * parameter. If destination resource exist operation will be fail.
    *
    * @param source the source URL.
    * @param destination the destination URL.
    * @return an HTTPResponse structure containing the response.
    * @exception java.io.IOException when an exception is returned from the
    *            socket.
    * @exception ModuleException if an exception is encountered in any module.
    */
   public HTTPResponse Move(String source, String destination) throws IOException, ModuleException
   {
      return Move(source, destination, false);
   }

   /**
    * Create new Collection.
    *
    * @param resource the URL for Collection creation.
    * @return an HTTPResponse structure containing the response.
    * @exception java.io.IOException when an exception is returned from the
    *            socket.
    * @exception ModuleException if an exception is encountered in any module.
    */
   public HTTPResponse MkCol(String resource) throws IOException, ModuleException
   {
      return setupRequest("MKCOL", resource, null, null, null);
   }

   /**
    * PROPFIND allprop request with 'Depth' header specified as 'infinity'.
    *
    * @param resource resource's URL.
    * @param depth the depth of request, if specified as -1 then 'infinity' will
    *        be used.
    * @return an HTTPResponse structure containing the response.
    * @exception java.io.IOException when an exception is returned from the
    *            socket.
    * @exception ModuleException if an exception is encountered in any module.
    */
   public HTTPResponse PropfindAllprop(String resource, int depth) throws IOException, ModuleException
   {
      byte[] requestBody =
         "<?xml version='1.0' encoding='utf-8'?><D:propfind xmlns:D=\"DAV:\"><D:allprop/></D:propfind>".getBytes();

      NVPair depthPair = new NVPair("Depth", depth == -1 ? "infinity" : (depth + ""));
      NVPair contentTypePair = new NVPair("Content-Type", "text/xml");
      NVPair contentLenghtPair = new NVPair("Content-Lenght", "" + requestBody.length);
      return setupRequest("PROPFIND", resource, new NVPair[]{depthPair, contentTypePair, contentLenghtPair},
         requestBody, null);
   }

   /**
    * PROPFIND allprop request with 'Depth' header specified as 'infinity'.
    *
    * @param resource resource's URL.
    * @return an HTTPResponse structure containing the response.
    * @exception java.io.IOException when an exception is returned from the
    *            socket.
    * @exception ModuleException if an exception is encountered in any module.
    */
   public HTTPResponse PropfindAllprop(String resource) throws IOException, ModuleException
   {
      return PropfindAllprop(resource, -1);
   }

   /**
    * PROPFIND prop request.
    *
    * @param resource resource's URL.
    * @param props the List&lt;String&gt; of resource's properties.
    * @param depth the depth of request, if specified as -1 then 'infinity' will
    *        be used.
    * @return an HTTPResponse structure containing the response.
    * @exception java.io.IOException when an exception is returned from the
    *            socket.
    * @exception ModuleException if an exception is encountered in any module.
    */
   public HTTPResponse Propfind(String resource, List<String> props, int depth) throws IOException, ModuleException
   {
      XMLOutputFactory factory = XMLOutputFactory.newInstance();
      HttpOutputStream out = new HttpOutputStream();
      NVPair depthPair = new NVPair("Depth", depth == -1 ? "infinity" : (depth + ""));
      NVPair contentTypePair = new NVPair("Content-Type", "text/xml");
      HTTPResponse response = setupRequest("PROPFIND", resource, new NVPair[]{depthPair, contentTypePair}, null, out);
      try
      {
         XMLStreamWriter sw = factory.createXMLStreamWriter(out, "UTF-8");
         sw.writeStartDocument("UTF-8", "1.0");
         sw.writeStartElement("D", "propfind", "DAV:");
         sw.writeNamespace("D", "DAV:");
         sw.writeStartElement("D", "prop", "DAV:");
         for (String prop : props)
            sw.writeEmptyElement("D", prop, "DAV:");

         sw.writeEndElement(); // prop
         sw.writeEndElement(); // propfind
         sw.writeEndDocument();
         out.close();
      }
      catch (XMLStreamException e)
      {
         LOG.error(e.getMessage(), e);
         throw new IOException("Can't write XML data to output stream.");
      }
      return response;
   }

   /**
    * PROPFIND prop request with 'Depth' header specified as 'infinity'.
    *
    * @param resource resource's URL.
    * @param props the List&lt;String&gt; of resource's properties.
    * @return an HTTPResponse structure containing the response.
    * @exception java.io.IOException when an exception is returned from the
    *            socket.
    * @exception ModuleException if an exception is encountered in any module.
    */
   public HTTPResponse Propfind(String resource, List<String> props) throws IOException, ModuleException
   {
      return Propfind(resource, props, -1);
   }

   /**
    * PROPFIND propname request.
    *
    * @param resource resource's URL.
    * @param depth the depth of request, if specified as -1 then 'infinity' will
    *        be used.
    * @return an HTTPResponse structure containing the response.
    * @exception java.io.IOException when an exception is returned from the
    *            socket.
    * @exception ModuleException if an exception is encountered in any module.
    */
   public HTTPResponse PropfindPropname(String resource, int depth) throws IOException, ModuleException
   {
      byte[] requestBody =
         "<?xml version='1.0' encoding='utf-8'?><D:propfind xmlns:D=\"DAV:\"><D:propname/></D:propfind>".getBytes();

      NVPair depthPair = new NVPair("Depth", depth == -1 ? "infinity" : (depth + ""));
      NVPair contentTypePair = new NVPair("Content-Type", "text/xml");
      NVPair contentLenghtPair = new NVPair("Content-Lenght", "" + requestBody.length);
      return setupRequest("PROPFIND", resource, new NVPair[]{depthPair, contentTypePair, contentLenghtPair},
         requestBody, null);
   }

   /**
    * PROPFIND propname request with 'Depth' header specified as 'infinity'.
    *
    * @param resource resource's URL.
    * @return an HTTPResponse structure containing the response.
    * @exception java.io.IOException when an exception is returned from the
    *            socket.
    * @exception ModuleException if an exception is encountered in any module.
    */
   public HTTPResponse PropfindPropname(String resource) throws IOException, ModuleException
   {
      return PropfindPropname(resource, -1);
   }

   /**
    * PROPPATCH request.
    *
    * @param resource resource's URL.
    * @param propsSet properties for set.
    * @param propsRemove properties for remove.
    * @return an HTTPResponse structure containing the response.
    * @exception java.io.IOException when an exception is returned from the
    *            socket.
    * @exception ModuleException if an exception is encountered in any module.
    */
   public HTTPResponse Proppath(String resource, Map<String, List<String>> propsSet, List<String> propsRemove)
      throws IOException, ModuleException
   {

      XMLOutputFactory factory = XMLOutputFactory.newInstance();
      HttpOutputStream out = new HttpOutputStream();
      NVPair contentTypePair = new NVPair("Content-Type", "text/xml");
      HTTPResponse response = setupRequest("PROPPATCH", resource, new NVPair[]{contentTypePair}, null, out);

      try
      {
         XMLStreamWriter sw = factory.createXMLStreamWriter(out, "UTF-8");
         sw.writeStartDocument("UTF-8", "1.0");
         sw.writeStartElement("D", "propertyupdate", "DAV:");
         sw.writeNamespace("D", "DAV:");
         if (propsSet != null && propsSet.size() > 0)
         {
            sw.writeStartElement("D", "set", "DAV:");
            Iterator<String> propsSetIter = propsSet.keySet().iterator();
            while (propsSetIter.hasNext())
            {
               String prop = propsSetIter.next();
               List<String> values = propsSet.get(prop);
               if (values != null && values.size() > 0)
               {
                  sw.writeStartElement("D", "prop", "DAV:");
                  for (String value : values)
                  {
                     sw.writeStartElement("D", prop, "DAV:");
                     sw.writeCharacters(value);
                     sw.writeEndElement();
                  }
                  sw.writeEndElement(); // prop
               }
            }
            sw.writeEndElement(); // set
         }

         if (propsRemove != null && propsRemove.size() > 0)
         {
            sw.writeStartElement("D", "remove", "DAV:");
            for (String value : propsRemove)
            {
               sw.writeStartElement("D", "prop", "DAV:");
               sw.writeEmptyElement(value);
               sw.writeEndElement(); // prop
            }
            sw.writeEndElement(); // remove
         }

         sw.writeEndElement(); // propertyupdate

         sw.writeEndDocument();
         out.close();
      }
      catch (XMLStreamException e)
      {
         LOG.error(e.getMessage(), e);
         throw new IOException("Can't write XML data to output stream.");
      }
      return response;
   }

   /**
    * LOCK request
    *
    * @param resource resource's URL.
    * @param isExclusive if true then exclusive type of lock will be set
    *        otherwise shared lock.
    * @param isRecursive if true then lock on collection will be recursive
    *        otherwise child resource will be not locked.
    * @param timeout the timeout for lock, if -1 then 'infinity' will be send.
    * @return an HTTPResponse structure containing the response.
    * @exception java.io.IOException when an exception is returned from the
    *            socket.
    * @exception ModuleException if an exception is encountered in any module.
    */
   public HTTPResponse Lock(String resource, boolean isExclusive, boolean isRecursive, long timeout)
      throws IOException, ModuleException
   {

      HttpOutputStream out = new HttpOutputStream();

      NVPair contentTypePair = new NVPair("Content-Type", "text/xml");
      NVPair depthPair = new NVPair("Depth", isRecursive ? "Infinity" : "0");
      NVPair timeoutPair = new NVPair("Timeout", timeout == -1 ? "Infinity" : "Second-" + timeout);
      HTTPResponse response =
         setupRequest("LOCK", resource, new NVPair[]{contentTypePair, timeoutPair, depthPair}, null, out);
      try
      {
         XMLOutputFactory factory = XMLOutputFactory.newInstance();
         XMLStreamWriter sw = factory.createXMLStreamWriter(out, "UTF-8");
         sw.writeStartDocument("UTF-8", "1.0");
         sw.writeStartElement("D", "lockinfo", "DAV:");
         sw.writeNamespace("D", "DAV:");
         sw.writeStartElement("D", "lockscope", "DAV:");
         if (isExclusive)
            sw.writeEmptyElement("D", "exclusive", "DAV:");
         else
            sw.writeEmptyElement("D", "shared", "DAV:");
         sw.writeEndElement(); // lockscope
         sw.writeStartElement("D", "locktype", "DAV:");
         sw.writeEmptyElement("D", "write", "DAV:");
         sw.writeEndElement(); // locktype
         sw.writeStartElement("D", "owner", "DAV:");
         sw.writeStartElement("D", "href", "DAV:");
         sw.writeCharacters("http://exoplatform.org");
         sw.writeEndElement(); // href
         sw.writeEndElement(); // owner
         sw.writeEndElement(); // lockinfo
         sw.writeEndDocument();

      }
      catch (XMLStreamException e)
      {
         LOG.error(e.getMessage(), e);
         throw new IOException("Can't write XML request.");
      }
      finally
      {
         out.close();
      }
      return response;
   }

   /**
    * Refresh LOCK request.
    *
    * @param resource resource's URL.
    * @param timeout the timeout for lock, if -1 then 'infinity' will be send.
    * @param lockToken the locktoken.
    * @return an HTTPResponse structure containing the response.
    * @exception java.io.IOException when an exception is returned from the
    *            socket.
    * @exception ModuleException if an exception is encountered in any module.
    */
   public HTTPResponse Lock(String resource, long timeout, String lockToken) throws IOException, ModuleException
   {
      NVPair timeoutPair = new NVPair("Timeout", timeout == -1 ? "Infinity" : "Second-" + timeout);
      NVPair ifPair =
         new NVPair("If", lockToken.startsWith("opaquelocktoken:") ? "(<" + lockToken + ">)" : "(<opaquelocktoken:"
            + lockToken + ">)");
      return setupRequest("LOCK", resource, new NVPair[]{timeoutPair, ifPair}, null, null);

   }

   /**
    * Refresh LOCK request.
    *
    * @param resource resource's URL.
    * @param timeout the timeout for lock, if -1 then 'infinity' will be send.
    * @param lockToken the locktoken.
    * @return an HTTPResponse structure containing the response.
    * @exception java.io.IOException when an exception is returned from the
    *            socket.
    * @exception ModuleException if an exception is encountered in any module.
    */
   public HTTPResponse Unlock(String resource, String lockToken) throws IOException, ModuleException
   {
      NVPair locktokenPair =
         new NVPair("Lock-Token", lockToken.startsWith("opaquelocktoken:") ? "<" + lockToken + ">"
            : "<opaquelocktoken:" + lockToken + ">");
      return setupRequest("UNLOCK", resource, new NVPair[]{locktokenPair}, null, null);
   }

   // end webdav specific methods

   /**
    * This is here to allow an arbitrary, non-standard request to be sent. I'm
    * assuming you know what you are doing...
    *
    * @param method the extension method
    * @param file the absolute path of the resource, or null
    * @param data optional data, or null
    * @param headers optional headers, or null
    * @return an HTTPResponse structure containing the response
    * @exception java.io.IOException when an exception is returned from the
    *            socket.
    * @exception ModuleException if an exception is encountered in any module.
    */
   public HTTPResponse ExtensionMethod(String method, String file, byte[] data, NVPair[] headers) throws IOException,
      ModuleException
   {
      return setupRequest(method.trim(), stripRef(file), headers, data, null);
   }

   /**
    * This is here to allow an arbitrary, non-standard request to be sent. I'm
    * assuming you know what you are doing...
    *
    * @param method the extension method
    * @param file the absolute path of the resource, or null
    * @param stream optional output stream, or null
    * @param headers optional headers, or null
    * @return an HTTPResponse structure containing the response
    * @exception java.io.IOException when an exception is returned from the
    *            socket.
    * @exception ModuleException if an exception is encountered in any module.
    */
   public HTTPResponse ExtensionMethod(String method, String file, HttpOutputStream os, NVPair[] headers)
      throws IOException, ModuleException
   {
      return setupRequest(method.trim(), stripRef(file), headers, null, os);
   }

   /**
    * Aborts all the requests currently in progress on this connection and
    * closes all associated sockets. You usually do <em>not</em> need to invoke
    * this - it only meant for when you need to abruptly stop things, such as
    * for example the stop button in a browser.
    * <P>
    * Note: there is a small window where a request method such as
    * <code>Get()</code> may have been invoked but the request has not been
    * built and added to the list. Any request in this window will not be
    * aborted.
    *
    * @since V0.2-3
    */
   public void stop()
   {
      for (Request req = (Request)RequestList.enumerate(); req != null; req = (Request)RequestList.next())
         req.aborted = true;

      for (StreamDemultiplexor demux = (StreamDemultiplexor)DemuxList.enumerate(); demux != null; demux =
         (StreamDemultiplexor)DemuxList.next())
         demux.abort();
   }

   /**
    * Sets the default http headers to be sent with each request. The actual
    * headers sent are determined as follows: for each header specified in
    * multiple places a value given as part of the request takes priority over
    * any default values set by this method, which in turn takes priority over
    * any built-in default values. A different way of looking at it is that we
    * start off with a list of all headers specified with the request, then add
    * any default headers set by this method which aren't already in our list,
    * and finally add any built-in headers which aren't yet in the list. There
    * is one exception to this rule: the "Content-length" header is always
    * ignored; and when posting form-data any default "Content-type" is ignored
    * in favor of the built-in "application/x-www-form-urlencoded" (however it
    * will be overriden by any content-type header specified as part of the
    * request).
    * <P>
    * Typical headers you might want to set here are "Accept" and its "Accept-*"
    * relatives, "Connection", "From", "User-Agent", etc.
    *
    * @param headers an array of header-name/value pairs (do not give the
    *        separating ':').
    */
   public void setDefaultHeaders(NVPair[] headers)
   {
      int length = (headers == null ? 0 : headers.length);
      NVPair[] def_hdrs = new NVPair[length];

      // weed out undesired headers
      int sidx, didx;
      for (sidx = 0, didx = 0; sidx < length; sidx++)
      {
         if (headers[sidx] == null)
            continue;

         String name = headers[sidx].getName().trim();
         if (name.equalsIgnoreCase("Content-length"))
            continue;

         def_hdrs[didx++] = headers[sidx];
      }

      if (didx < length)
         def_hdrs = Util.resizeArray(def_hdrs, didx);

      synchronized (DefaultHeaders)
      {
         DefaultHeaders = def_hdrs;
      }
   }

   /**
    * Gets the current list of default http headers.
    *
    * @return an array of header/value pairs.
    */
   public NVPair[] getDefaultHeaders()
   {
      synchronized (DefaultHeaders)
      {
         return DefaultHeaders.clone();
      }
   }

   /**
    * Returns the protocol this connection is talking.
    *
    * @return a string containing the (lowercased) protocol
    */
   public String getProtocol()
   {
      switch (Protocol)
      {
         case HTTP :
            return "http";
         case HTTPS :
            return "https";
         case SHTTP :
            return "shttp";
         case HTTP_NG :
            return "http-ng";
         default :
            throw new Error("HTTPClient Internal Error: invalid protocol " + Protocol);
      }
   }

   /**
    * Returns the host this connection is talking to.
    *
    * @return a string containing the (lowercased) host name.
    */
   public String getHost()
   {
      return Host;
   }

   /**
    * Returns the port this connection connects to. This is always the actual
    * port number, never -1.
    *
    * @return the port number
    */
   public int getPort()
   {
      return Port;
   }

   /**
    * Returns the host of the proxy this connection is using.
    *
    * @return a string containing the (lowercased) host name.
    */
   public String getProxyHost()
   {
      return Proxy_Host;
   }

   /**
    * Returns the port of the proxy this connection is using.
    *
    * @return the port number
    */
   public int getProxyPort()
   {
      return Proxy_Port;
   }

   /**
    * See if the given uri is compatible with this connection. Compatible means
    * that the given uri can be retrieved using this connection object.
    *
    * @param uri the URI to check
    * @return true if they're compatible, false otherwise
    * @since V0.3-2
    */
   public boolean isCompatibleWith(URI uri)
   {
      if (!uri.getScheme().equals(getProtocol()) || !uri.getHost().equalsIgnoreCase(Host))
         return false;

      int port = uri.getPort();
      if (port == -1)
         port = URI.defaultPort(uri.getScheme());
      return port == Port;
   }

   /**
    * Sets/Resets raw mode. In raw mode all modules are bypassed, meaning the
    * automatic handling of authorization requests, redirections, cookies, etc.
    * is turned off.
    * <P>
    * The default is false.
    *
    * @deprecated This is not really needed anymore; in V0.2 request were
    *             synchronous and therefore to do pipelining you needed to
    *             disable the processing of responses.
    * @see #removeModule(java.lang.Class)
    * @param raw if true removes all modules (except for the retry module)
    */
   public void setRawMode(boolean raw)
   {
      // Don't remove the retry module
      String[] modules =
         {"HTTPClient.CookieModule", "HTTPClient.RedirectionModule", "HTTPClient.AuthorizationModule",
            "HTTPClient.DefaultModule", "HTTPClient.TransferEncodingModule", "HTTPClient.ContentMD5Module",
            "HTTPClient.ContentEncodingModule"};

      for (int idx = 0; idx < modules.length; idx++)
      {
         try
         {
            if (raw)
               removeModule(Class.forName(modules[idx]));
            else
               addModule(Class.forName(modules[idx]), -1);
         }
         catch (ClassNotFoundException cnfe)
         {
         }
      }
   }

   /**
    * Sets the default timeout value to be used for each new HTTPConnection. The
    * default is 0.
    *
    * @param time the timeout in milliseconds.
    * @see #setTimeout(int)
    */
   public static void setDefaultTimeout(int time)
   {
      DefaultTimeout = time;
   }

   /**
    * Gets the default timeout value to be used for each new HTTPConnection.
    *
    * @return the timeout in milliseconds.
    * @see #setTimeout(int)
    */
   public static int getDefaultTimeout()
   {
      return DefaultTimeout;
   }

   /**
    * Sets the timeout to be used for creating connections and reading
    * responses. When a timeout expires the operation will throw an
    * InterruptedIOException. The operation may be restarted again afterwards.
    * If the operation is not restarted and it is a read operation (i.e
    * HTTPResponse.xxxx()) then <code>resp.getInputStream().close()</code>
    * <strong>should</strong> be invoked.
    * <P>
    * When creating new sockets the timeout will limit the time spent doing the
    * host name translation and establishing the connection with the server.
    * <P>
    * The timeout also influences the reading of the response headers. However,
    * it does not specify a how long, for example, getStatusCode() may take, as
    * might be assumed. Instead it specifies how long a read on the socket may
    * take. If the response dribbles in slowly with packets arriving quicker
    * than the timeout then the method will complete normally. I.e. the
    * exception is only thrown if nothing arrives on the socket for the
    * specified time. Furthermore, the timeout only influences the reading of
    * the headers, not the reading of the body.
    * <P>
    * Read Timeouts are associated with responses, so that you may change this
    * value before each request and it won't affect the reading of responses to
    * previous requests.
    *
    * @param time the time in milliseconds. A time of 0 means wait indefinitely.
    * @see #stop()
    */
   public void setTimeout(int time)
   {
      Timeout = time;
   }

   /**
    * Gets the timeout used for reading response data.
    *
    * @return the current timeout value
    * @see #setTimeout(int)
    */
   public int getTimeout()
   {
      return Timeout;
   }

   /**
    * Controls whether modules are allowed to prompt the user or pop up dialogs
    * if neccessary.
    *
    * @param allow if true allows modules to interact with user.
    */
   public void setAllowUserInteraction(boolean allow)
   {
      allowUI = allow;
   }

   /**
    * returns whether modules are allowed to prompt or popup dialogs if
    * neccessary.
    *
    * @return true if modules are allowed to interact with user.
    */
   public boolean getAllowUserInteraction()
   {
      return allowUI;
   }

   /**
    * Sets the default allow-user-action.
    *
    * @param allow if true allows modules to interact with user.
    */
   public static void setDefaultAllowUserInteraction(boolean allow)
   {
      defaultAllowUI = allow;
   }

   /**
    * Gets the default allow-user-action.
    *
    * @return true if modules are allowed to interact with user.
    */
   public static boolean getDefaultAllowUserInteraction()
   {
      return defaultAllowUI;
   }

   /**
    * Returns the default list of modules.
    *
    * @return an array of classes
    */
   public static Class[] getDefaultModules()
   {
      return getModules(DefaultModuleList);
   }

   /**
    * Adds a module to the default list. It must implement the
    * <var>HTTPClientModule</var> interface. If the module is already in the
    * list then this method does nothing. This method only affects instances of
    * HTTPConnection created after this method has been invoked; it does not
    * affect existing instances.
    * <P>
    * Example:
    *
    * <PRE>
    * HTTPConnection.addDefaultModule(Class.forName(&quot;HTTPClient.CookieModule&quot;), 1);
    * </PRE>
    *
    * adds the cookie module as the second module in the list.
    * <P>
    * The default list is created at class initialization time from the property
    * <var>HTTPClient.Modules</var>. This must contain a "|" separated list of
    * classes in the order they're to be invoked. If this property is not set it
    * defaults to: "HTTPClient.RetryModule | HTTPClient.CookieModule |
    * HTTPClient.RedirectionModule | HTTPClient.AuthorizationModule |
    * HTTPClient.DefaultModule | HTTPClient.TransferEncodingModule |
    * HTTPClient.ContentMD5Module | HTTPClient.ContentEncodingModule"
    *
    * @see HTTPClientModule
    * @param module the module's Class object
    * @param pos the position of this module in the list; if <var>pos</var> >= 0
    *        then this is the absolute position in the list (0 is the first
    *        position); if <var>pos</var> < 0 then this is the position relative
    *        to the end of the list (-1 means the last element, -2 the second to
    *        last element, etc).
    * @return true if module was successfully added; false if the module is
    *         already in the list.
    * @exception ArrayIndexOutOfBoundsException if <var>pos</var> > list-size or
    *            if <var>pos</var> < -(list-size).
    * @exception ClassCastException if <var>module</var> does not implement the
    *            <var>HTTPClientModule</var> interface.
    * @exception RuntimeException if <var>module</var> cannot be instantiated.
    */
   public static boolean addDefaultModule(Class module, int pos)
   {
      return addModule(DefaultModuleList, module, pos);
   }

   /**
    * Removes a module from the default list. If the module is not in the list
    * it does nothing. This method only affects instances of HTTPConnection
    * created after this method has been invoked; it does not affect existing
    * instances.
    *
    * @param module the module's Class object
    * @return true if module was successfully removed; false otherwise
    */
   public static boolean removeDefaultModule(Class module)
   {
      return removeModule(DefaultModuleList, module);
   }

   /**
    * Returns the list of modules used currently.
    *
    * @return an array of classes
    */
   public Class[] getModules()
   {
      return getModules(ModuleList);
   }

   /**
    * Adds a module to the current list. It must implement the
    * <var>HTTPClientModule</var> interface. If the module is already in the
    * list then this method does nothing.
    *
    * @see HTTPClientModule
    * @param module the module's Class object
    * @param pos the position of this module in the list; if <var>pos</var> >= 0
    *        then this is the absolute position in the list (0 is the first
    *        position); if <var>pos</var> < 0 then this is the position relative
    *        to the end of the list (-1 means the last element, -2 the second to
    *        last element, etc).
    * @return true if module was successfully added; false if the module is
    *         already in the list.
    * @exception ArrayIndexOutOfBoundsException if <var>pos</var> > list-size or
    *            if <var>pos</var> < -(list-size).
    * @exception ClassCastException if <var>module</var> does not implement the
    *            <var>HTTPClientModule</var> interface.
    * @exception RuntimeException if <var>module</var> cannot be instantiated.
    */
   public boolean addModule(Class module, int pos)
   {
      return addModule(ModuleList, module, pos);
   }

   /**
    * Removes a module from the current list. If the module is not in the list
    * it does nothing.
    *
    * @param module the module's Class object
    * @return true if module was successfully removed; false otherwise
    */
   public boolean removeModule(Class module)
   {
      return removeModule(ModuleList, module);
   }

   private static final Class[] getModules(Vector list)
   {
      synchronized (list)
      {
         Class[] modules = new Class[list.size()];
         list.copyInto(modules);
         return modules;
      }
   }

   private static final boolean addModule(Vector list, Class module, int pos)
   {
      if (module == null)
         return false;

      // check if module implements HTTPClientModule
      try
      {
         HTTPClientModule tmp = (HTTPClientModule)module.newInstance();
      }
      catch (RuntimeException re)
      {
         throw re;
      }
      catch (Exception e)
      {
         throw new RuntimeException(e.toString());
      }

      synchronized (list)
      {
         // check if module already in list
         if (list.contains(module))
            return false;

         // add module to list
         if (pos < 0)
            list.insertElementAt(module, DefaultModuleList.size() + pos + 1);
         else
            list.insertElementAt(module, pos);
      }

      if (log.isDebugEnabled())
         log.debug("Added module " + module.getName() + " to " + ((list == DefaultModuleList) ? "default " : "")
            + "list");

      return true;
   }

   private static final boolean removeModule(Vector list, Class module)
   {
      if (module == null)
         return false;

      boolean removed = list.removeElement(module);
      if (removed)
      {
         if (log.isDebugEnabled())
            log.debug("Removed module " + module.getName() + " from " + ((list == DefaultModuleList) ? "default " : "")
               + "list");

      }

      return removed;
   }

   /**
    * Sets the current context. The context is used by modules such as the
    * AuthorizationModule and the CookieModule which keep lists of info that is
    * normally shared between all instances of HTTPConnection. This is usually
    * the desired behaviour. However, in some cases one would like to simulate
    * multiple independent clients within the same application and hence the
    * sharing of such info should be restricted. This is where the context comes
    * in. Modules will only share their info between requests using the same
    * context (i.e. they keep multiple lists, one for each context).
    * <P>
    * The context may be any object. Contexts are considered equal if
    * <code>equals()</code> returns true. Examples of useful context objects are
    * threads (e.g. if you are running multiple clients, one per thread) and
    * sockets (e.g. if you are implementing a gateway).
    * <P>
    * When a new HTTPConnection is created it is initialized with a default
    * context which is the same for all instances. This method must be invoked
    * immediately after a new HTTPConnection is created and before any request
    * method is invoked. Furthermore, this method may only be called once (i.e.
    * the context is "sticky").
    *
    * @param context the new context; must be non-null
    * @exception IllegalArgumentException if <var>context</var> is null
    * @exception IllegalStateException if the context has already been set
    */
   public void setContext(Object context)
   {
      if (context == null)
         throw new IllegalArgumentException("Context must be non-null");
      if (Context != null)
         throw new IllegalStateException("Context already set");

      Context = context;
   }

   /**
    * Returns the current context.
    *
    * @see #setContext(java.lang.Object)
    * @return the current context, or the default context if
    *         <code>setContext()</code> hasn't been invoked
    */
   public Object getContext()
   {
      if (Context != null)
         return Context;
      else
         return dflt_context;
   }

   /**
    * Returns the default context.
    *
    * @see #setContext(java.lang.Object)
    * @return the default context
    */
   public static Object getDefaultContext()
   {
      return dflt_context;
   }

   /**
    * Adds an authorization entry for the "digest" authorization scheme to the
    * list. If an entry already exists for the "digest" scheme and the specified
    * realm then it is overwritten.
    * <P>
    * This is a convenience method and just invokes the corresponding method in
    * AuthorizationInfo.
    *
    * @param realm the realm
    * @param user the username
    * @param passw the password
    * @see AuthorizationInfo#addDigestAuthorization(java.lang.String, int,
    *      java.lang.String, java.lang.String, java.lang.String)
    */
   public void addDigestAuthorization(String realm, String user, String passwd)
   {
      AuthorizationInfo.addDigestAuthorization(Host, Port, realm, user, passwd, getContext());
   }

   /**
    * Adds an authorization entry for the "basic" authorization scheme to the
    * list. If an entry already exists for the "basic" scheme and the specified
    * realm then it is overwritten.
    * <P>
    * This is a convenience method and just invokes the corresponding method in
    * AuthorizationInfo.
    *
    * @param realm the realm
    * @param user the username
    * @param passw the password
    * @see AuthorizationInfo#addBasicAuthorization(java.lang.String, int,
    *      java.lang.String, java.lang.String, java.lang.String)
    */
   public void addBasicAuthorization(String realm, String user, String passwd)
   {
      AuthorizationInfo.addBasicAuthorization(Host, Port, realm, user, passwd, getContext());
   }

   /**
    * Sets the default proxy server to use. The proxy will only be used for new
    * <var>HTTPConnection</var>s created after this call and will not affect
    * currrent instances of <var>HTTPConnection</var>. A null or empty string
    * <var>host</var> parameter disables the proxy.
    * <P>
    * In an application or using the Appletviewer an alternative to this method
    * is to set the following properties (either in the properties file or on
    * the command line): <var>http.proxyHost</var> and
    * <var>http.proxyPort</var>. Whether <var>http.proxyHost</var> is set or not
    * determines whether a proxy server is used.
    * <P>
    * If the proxy server requires authorization and you wish to set this
    * authorization information in the code, then you may use any of the
    * <var>AuthorizationInfo.addXXXAuthorization()</var> methods to do so.
    * Specify the same <var>host</var> and <var>port</var> as in this method. If
    * you have not given any authorization info and the proxy server requires
    * authorization then you will be prompted for the necessary info via a popup
    * the first time you do a request.
    *
    * @see #setCurrentProxy(java.lang.String, int)
    * @param host the host on which the proxy server resides.
    * @param port the port the proxy server is listening on.
    */
   public static void setProxyServer(String host, int port)
   {
      if (host == null || host.trim().length() == 0)
         Default_Proxy_Host = null;
      else
      {
         Default_Proxy_Host = host.trim().toLowerCase();
         Default_Proxy_Port = port;
      }
   }

   /**
    * Sets the proxy used by this instance. This can be used to override the
    * proxy setting inherited from the default proxy setting. A null or empty
    * string <var>host</var> parameter disables the proxy.
    * <P>
    * Note that if you set a proxy for the connection using this method, and a
    * request made over this connection is redirected to a different server,
    * then the connection used for new server will <em>not</em> pick this proxy
    * setting, but instead will use the default proxy settings.
    *
    * @see #setProxyServer(java.lang.String, int)
    * @param host the host the proxy runs on
    * @param port the port the proxy is listening on
    */
   public synchronized void setCurrentProxy(String host, int port)
   {
      if (host == null || host.trim().length() == 0)
         Proxy_Host = null;
      else
      {
         Proxy_Host = host.trim().toLowerCase();
         if (port <= 0)
            Proxy_Port = 80;
         else
            Proxy_Port = port;
      }

      // the proxy might be talking a different version, so renegotiate
      switch (Protocol)
      {
         case HTTP :
         case HTTPS :
            if (force_1_0)
            {
               ServerProtocolVersion = HTTP_1_0;
               ServProtVersKnown = true;
               RequestProtocolVersion = "HTTP/1.0";
            }
            else
            {
               ServerProtocolVersion = HTTP_1_1;
               ServProtVersKnown = false;
               RequestProtocolVersion = "HTTP/1.1";
            }
            break;
         case HTTP_NG :
            ServerProtocolVersion = -1; /* Unknown */
            ServProtVersKnown = false;
            RequestProtocolVersion = "";
            break;
         case SHTTP :
            ServerProtocolVersion = -1; /* Unknown */
            ServProtVersKnown = false;
            RequestProtocolVersion = "Secure-HTTP/1.3";
            break;
         default :
            throw new Error("HTTPClient Internal Error: invalid protocol " + Protocol);
      }

      keepAliveUnknown = true;
      doesKeepAlive = false;

      input_demux = null;
      early_stall = null;
      late_stall = null;
      prev_resp = null;
   }

   /**
    * Add <var>host</var> to the list of hosts which should be accessed
    * directly, not via any proxy set by <code>setProxyServer()</code>.
    * <P>
    * The <var>host</var> may be any of:
    * <UL>
    * <LI>a complete host name (e.g. "www.disney.com")
    * <LI>a domain name; domain names must begin with a dot (e.g. ".disney.com")
    * <LI>an IP-address (e.g. "12.34.56.78")
    * <LI>an IP-subnet, specified as an IP-address and a netmask separated by a
    * "/" (e.g. "34.56.78/255.255.255.192"); a 0 bit in the netmask means that
    * that bit won't be used in the comparison (i.e. the addresses are AND'ed
    * with the netmask before comparison).
    * </UL>
    * <P>
    * The two properties <var>HTTPClient.nonProxyHosts</var> and
    * <var>http.nonProxyHosts</var> are used when this class is loaded to
    * initialize the list of non-proxy hosts. The second property is only read
    * if the first one is not set; the second property is also used the JDK's
    * URLConnection. These properties must contain a "|" separated list of
    * entries which conform to the above rules for the <var>host</var> parameter
    * (e.g. "11.22.33.44|.disney.com").
    *
    * @param host a host name, domain name, IP-address or IP-subnet.
    * @exception ParseException if the length of the netmask does not match the
    *            length of the IP-address
    */
   public static void dontProxyFor(String host) throws ParseException
   {
      host = host.trim().toLowerCase();

      // check for domain name

      if (host.charAt(0) == '.')
      {
         if (!non_proxy_dom_list.contains(host))
            non_proxy_dom_list.addElement(host);
         return;
      }

      // check for host name

      for (int idx = 0; idx < host.length(); idx++)
      {
         if (!Character.isDigit(host.charAt(idx)) && host.charAt(idx) != '.' && host.charAt(idx) != '/')
         {
            non_proxy_host_list.put(host, "");
            return;
         }
      }

      // must be an IP-address

      byte[] ip_addr;
      byte[] ip_mask;
      int slash;
      if ((slash = host.indexOf('/')) != -1) // IP subnet
      {
         ip_addr = string2arr(host.substring(0, slash));
         ip_mask = string2arr(host.substring(slash + 1));
         if (ip_addr.length != ip_mask.length)
            throw new ParseException("length of IP-address (" + ip_addr.length + ") != length of netmask ("
               + ip_mask.length + ")");
      }
      else
      {
         ip_addr = string2arr(host);
         ip_mask = new byte[ip_addr.length];
         for (int idx = 0; idx < ip_mask.length; idx++)
            ip_mask[idx] = (byte)255;
      }

      // check if addr or subnet already exists

      ip_loop : for (int idx = 0; idx < non_proxy_addr_list.size(); idx++)
      {
         byte[] addr = (byte[])non_proxy_addr_list.elementAt(idx);
         byte[] mask = (byte[])non_proxy_mask_list.elementAt(idx);
         if (addr.length != ip_addr.length)
            continue;

         for (int idx2 = 0; idx2 < addr.length; idx2++)
         {
            if ((ip_addr[idx2] & mask[idx2]) != (addr[idx2] & mask[idx2]) || (mask[idx2] != ip_mask[idx2]))
               continue ip_loop;
         }

         return; // already exists
      }
      non_proxy_addr_list.addElement(ip_addr);
      non_proxy_mask_list.addElement(ip_mask);
   }

   /**
    * Convenience method to add a number of hosts at once. If any one host is
    * null or cannot be parsed it is ignored.
    *
    * @param hosts The list of hosts to set
    * @see #dontProxyFor(java.lang.String)
    * @since V0.3-2
    */
   public static void dontProxyFor(String[] hosts)
   {
      if (hosts == null || hosts.length == 0)
         return;

      for (int idx = 0; idx < hosts.length; idx++)
      {
         try
         {
            if (hosts[idx] != null)
               dontProxyFor(hosts[idx]);
         }
         catch (ParseException pe)
         {
            // ignore it
         }
      }
   }

   /**
    * Remove <var>host</var> from the list of hosts for which the proxy should
    * not be used. This modifies the same list that <code>dontProxyFor()</code>
    * uses, i.e. this is used to undo a <code>dontProxyFor()</code> setting. The
    * syntax for <var>host</var> is specified in <code>dontProxyFor()</code>.
    *
    * @param host a host name, domain name, IP-address or IP-subnet.
    * @return true if the remove was sucessful, false otherwise
    * @exception ParseException if the length of the netmask does not match the
    *            length of the IP-address
    * @see #dontProxyFor(java.lang.String)
    */
   public static boolean doProxyFor(String host) throws ParseException
   {
      host = host.trim().toLowerCase();

      // check for domain name

      if (host.charAt(0) == '.')
         return non_proxy_dom_list.removeElement(host);

      // check for host name

      for (int idx = 0; idx < host.length(); idx++)
      {
         if (!Character.isDigit(host.charAt(idx)) && host.charAt(idx) != '.' && host.charAt(idx) != '/')
            return (non_proxy_host_list.remove(host) != null);
      }

      // must be an IP-address

      byte[] ip_addr;
      byte[] ip_mask;
      int slash;
      if ((slash = host.indexOf('/')) != -1) // IP subnet
      {
         ip_addr = string2arr(host.substring(0, slash));
         ip_mask = string2arr(host.substring(slash + 1));
         if (ip_addr.length != ip_mask.length)
            throw new ParseException("length of IP-address (" + ip_addr.length + ") != length of netmask ("
               + ip_mask.length + ")");
      }
      else
      {
         ip_addr = string2arr(host);
         ip_mask = new byte[ip_addr.length];
         for (int idx = 0; idx < ip_mask.length; idx++)
            ip_mask[idx] = (byte)255;
      }

      ip_loop : for (int idx = 0; idx < non_proxy_addr_list.size(); idx++)
      {
         byte[] addr = (byte[])non_proxy_addr_list.elementAt(idx);
         byte[] mask = (byte[])non_proxy_mask_list.elementAt(idx);
         if (addr.length != ip_addr.length)
            continue;

         for (int idx2 = 0; idx2 < addr.length; idx2++)
         {
            if ((ip_addr[idx2] & mask[idx2]) != (addr[idx2] & mask[idx2]) || (mask[idx2] != ip_mask[idx2]))
               continue ip_loop;
         }

         non_proxy_addr_list.removeElementAt(idx);
         non_proxy_mask_list.removeElementAt(idx);
         return true;
      }
      return false;
   }

   /**
    * Turn an IP-address string into an array (e.g. "12.34.56.78" into { 12, 34,
    * 56, 78 }).
    *
    * @param ip IP-address
    * @return IP-address in network byte order
    */
   private static byte[] string2arr(String ip)
   {
      byte[] arr;
      char[] ip_char = new char[ip.length()];
      ip.getChars(0, ip_char.length, ip_char, 0);

      int cnt = 0;
      for (int idx = 0; idx < ip_char.length; idx++)
         if (ip_char[idx] == '.')
            cnt++;
      arr = new byte[cnt + 1];

      cnt = 0;
      int pos = 0;
      for (int idx = 0; idx < ip_char.length; idx++)
         if (ip_char[idx] == '.')
         {
            arr[cnt] = (byte)Integer.parseInt(ip.substring(pos, idx));
            cnt++;
            pos = idx + 1;
         }
      arr[cnt] = (byte)Integer.parseInt(ip.substring(pos));

      return arr;
   }

   /**
    * Sets the SOCKS server to use. The server will only be used for new
    * HTTPConnections created after this call and will not affect currrent
    * instances of HTTPConnection. A null or empty string host parameter
    * disables SOCKS.
    * <P>
    * The code will try to determine the SOCKS version to use at connection
    * time. This might fail for a number of reasons, however, in which case you
    * must specify the version explicitly.
    *
    * @see #setSocksServer(java.lang.String, int, int)
    * @param host the host on which the proxy server resides. The port used is
    *        the default port 1080.
    */
   public static void setSocksServer(String host)
   {
      setSocksServer(host, 1080);
   }

   /**
    * Sets the SOCKS server to use. The server will only be used for new
    * HTTPConnections created after this call and will not affect currrent
    * instances of HTTPConnection. A null or empty string host parameter
    * disables SOCKS.
    * <P>
    * The code will try to determine the SOCKS version to use at connection
    * time. This might fail for a number of reasons, however, in which case you
    * must specify the version explicitly.
    *
    * @see #setSocksServer(java.lang.String, int, int)
    * @param host the host on which the proxy server resides.
    * @param port the port the proxy server is listening on.
    */
   public static void setSocksServer(String host, int port)
   {
      if (port <= 0)
         port = 1080;

      if (host == null || host.length() == 0)
         Default_Socks_client = null;
      else
         Default_Socks_client = new SocksClient(host, port);
   }

   /**
    * Sets the SOCKS server to use. The server will only be used for new
    * HTTPConnections created after this call and will not affect currrent
    * instances of HTTPConnection. A null or empty string host parameter
    * disables SOCKS.
    * <P>
    * In an application or using the Appletviewer an alternative to this method
    * is to set the following properties (either in the properties file or on
    * the command line): <var>HTTPClient.socksHost</var>,
    * <var>HTTPClient.socksPort</var> and <var>HTTPClient.socksVersion</var>.
    * Whether <var>HTTPClient.socksHost</var> is set or not determines whether a
    * SOCKS server is used; if <var>HTTPClient.socksPort</var> is not set it
    * defaults to 1080; if <var>HTTPClient.socksVersion</var> is not set an
    * attempt will be made to automatically determine the version used by the
    * server.
    * <P>
    * Note: If you have also set a proxy server then a connection will be made
    * to the SOCKS server, which in turn then makes a connection to the proxy
    * server (possibly via other SOCKS servers), which in turn makes the final
    * connection.
    * <P>
    * If the proxy server is running SOCKS version 5 and requires
    * username/password authorization, and you wish to set this authorization
    * information in the code, then you may use the
    * <var>AuthorizationInfo.addAuthorization()</var> method to do so. Specify
    * the same <var>host</var> and <var>port</var> as in this method, give the
    * <var>scheme</var> "SOCKS5" and the <var>realm</var> "USER/PASS", set the
    * <var>cookie</var> to null and the <var>params</var> to an array containing
    * a single <var>NVPair</var> in turn containing the username and password.
    * Example:
    *
    * <PRE>
    * NVPair[] up = {new NVPair(username, password)};
    * AuthorizationInfo.addAuthorization(host, port, &quot;SOCKS5&quot;, &quot;USER/PASS&quot;, null, up);
    * </PRE>
    *
    * If you have not given any authorization info and the proxy server requires
    * authorization then you will be prompted for the necessary info via a popup
    * the first time you do a request.
    *
    * @param host the host on which the proxy server resides.
    * @param port the port the proxy server is listening on.
    * @param version the SOCKS version the server is running. Currently this
    *        must be '4' or '5'.
    * @exception SocksException If <var>version</var> is not '4' or '5'.
    */
   public static void setSocksServer(String host, int port, int version) throws SocksException
   {
      if (port <= 0)
         port = 1080;

      if (host == null || host.length() == 0)
         Default_Socks_client = null;
      else
         Default_Socks_client = new SocksClient(host, port, version);
   }

   /**
    * Removes the #... part. Returns the stripped name, or "" if either the
    * <var>file</var> is null or is the empty string (after stripping).
    *
    * @param file the name to strip
    * @return the stripped name
    */
   private final String stripRef(String file)
   {
      if (file == null)
         return "";

      int hash = file.indexOf('#');
      if (hash != -1)
         file = file.substring(0, hash);

      return file.trim();
   }

   // private helper methods

   /**
    * Sets up the request, creating the list of headers to send and creating
    * instances of the modules. This may be invoked by subclasses which add
    * further methods (such as those from DAV and IPP).
    *
    * @param method GET, POST, etc.
    * @param resource the resource
    * @param headers an array of headers to be used
    * @param entity the entity (or null)
    * @param stream the output stream (or null) - only one of stream and entity
    *        may be non-null
    * @return the response.
    * @exception java.io.IOException when an exception is returned from the
    *            socket.
    * @exception ModuleException if an exception is encountered in any module.
    */
   protected final HTTPResponse setupRequest(String method, String resource, NVPair[] headers, byte[] entity,
      HttpOutputStream stream) throws IOException, ModuleException
   {
      Request req = new Request(this, method, resource, mergedHeaders(headers), entity, stream, allowUI);
      RequestList.addToEnd(req);

      try
      {
         HTTPResponse resp = new HTTPResponse(gen_mod_insts(), Timeout, req);
         handleRequest(req, resp, null, true);
         return resp;
      }
      finally
      {
         RequestList.remove(req);
      }
   }

   /**
    * This merges built-in default headers, user-specified default headers, and
    * method-specified headers. Method-specified take precedence over user
    * defaults, which take precedence over built-in defaults. The following
    * headers are removed if found: "Content-length".
    *
    * @param spec the headers specified in the call to the method
    * @return an array consisting of merged headers.
    */
   private NVPair[] mergedHeaders(NVPair[] spec)
   {
      int spec_len = (spec != null ? spec.length : 0), defs_len;
      NVPair[] merged;

      synchronized (DefaultHeaders)
      {
         defs_len = (DefaultHeaders != null ? DefaultHeaders.length : 0);
         merged = new NVPair[spec_len + defs_len];

         // copy default headers
         System.arraycopy(DefaultHeaders, 0, merged, 0, defs_len);
      }

      // merge in selected headers
      int sidx, didx = defs_len;
      for (sidx = 0; sidx < spec_len; sidx++)
      {
         if (spec[sidx] == null)
            continue;

         String s_name = spec[sidx].getName().trim();
         if (s_name.equalsIgnoreCase("Content-length"))
            continue;

         int search;
         for (search = 0; search < didx; search++)
         {
            if (merged[search].getName().trim().equalsIgnoreCase(s_name))
               break;
         }

         merged[search] = spec[sidx];
         if (search == didx)
            didx++;
      }

      if (didx < merged.length)
         merged = Util.resizeArray(merged, didx);

      return merged;
   }

   /**
    * Generate an array of instances of the current modules.
    */
   private HTTPClientModule[] gen_mod_insts()
   {
      synchronized (ModuleList)
      {
         HTTPClientModule[] mod_insts = new HTTPClientModule[ModuleList.size()];

         for (int idx = 0; idx < ModuleList.size(); idx++)
         {
            Class mod = (Class)ModuleList.elementAt(idx);
            try
            {
               mod_insts[idx] = (HTTPClientModule)mod.newInstance();
            }
            catch (Exception e)
            {
               throw new Error("HTTPClient Internal Error: could not " + "create instance of " + mod.getName() + " -\n"
                  + e);
            }
         }

         return mod_insts;
      }
   }

   /**
    * handles the Request. First the request handler for each module is is
    * invoked, and then if no response was generated the request is sent.
    *
    * @param req the Request
    * @param http_resp the HTTPResponse
    * @param resp the Response
    * @param usemodules if false then skip module loop
    * @exception IOException if any module or sendRequest throws it
    * @exception ModuleException if any module throws it
    */
   void handleRequest(Request req, HTTPResponse http_resp, Response resp, boolean usemodules) throws IOException,
      ModuleException
   {
      Response[] rsp_arr = {resp};
      HTTPClientModule[] modules = http_resp.getModules();

      // invoke requestHandler for each module

      if (usemodules)
         doModules : for (int idx = 0; idx < modules.length; idx++)
         {
            int sts = modules[idx].requestHandler(req, rsp_arr);
            switch (sts)
            {
               case REQ_CONTINUE : // continue processing
                  break;

               case REQ_RESTART : // restart processing with first module
                  idx = -1;
                  continue doModules;

               case REQ_SHORTCIRC : // stop processing and send
                  break doModules;

               case REQ_RESPONSE : // go to phase 2
               case REQ_RETURN : // return response immediately
                  if (rsp_arr[0] == null)
                     throw new Error("HTTPClient Internal Error: no " + "response returned by module "
                        + modules[idx].getClass().getName());
                  http_resp.set(req, rsp_arr[0]);
                  if (req.getStream() != null)
                     req.getStream().ignoreData(req);
                  if (req.internal_subrequest)
                     return;
                  if (sts == REQ_RESPONSE)
                     http_resp.handleResponse();
                  else
                     http_resp.init(rsp_arr[0]);
                  return;

               case REQ_NEWCON_RST : // new connection
                  if (req.internal_subrequest)
                     return;
                  req.getConnection().handleRequest(req, http_resp, rsp_arr[0], true);
                  return;

               case REQ_NEWCON_SND : // new connection, send immediately
                  if (req.internal_subrequest)
                     return;
                  req.getConnection().handleRequest(req, http_resp, rsp_arr[0], false);
                  return;

               default : // not valid
                  throw new Error("HTTPClient Internal Error: invalid status" + " " + sts + " returned by module "
                     + modules[idx].getClass().getName());
            }
         }

      if (req.internal_subrequest)
         return;

      // Send the request across the wire

      if (req.getStream() != null && req.getStream().getLength() == -1)
      {
         if (!ServProtVersKnown || ServerProtocolVersion < HTTP_1_1 || no_chunked)
         {
            req.getStream().goAhead(req, null, http_resp.getTimeout());
            http_resp.set(req, req.getStream());
         }
         else
         {
            // add Transfer-Encoding header if necessary
            int idx;
            NVPair[] hdrs = req.getHeaders();
            for (idx = 0; idx < hdrs.length; idx++)
               if (hdrs[idx].getName().equalsIgnoreCase("Transfer-Encoding"))
                  break;

            if (idx == hdrs.length)
            {
               hdrs = Util.resizeArray(hdrs, idx + 1);
               hdrs[idx] = new NVPair("Transfer-Encoding", "chunked");
               req.setHeaders(hdrs);
            }
            else
            {
               String v = hdrs[idx].getValue();
               try
               {
                  if (!Util.hasToken(v, "chunked"))
                     hdrs[idx] = new NVPair("Transfer-Encoding", v + ", chunked");
               }
               catch (ParseException pe)
               {
                  throw new IOException(pe.toString());
               }
            }

            http_resp.set(req, sendRequest(req, http_resp.getTimeout()));
         }
      }
      else
         http_resp.set(req, sendRequest(req, http_resp.getTimeout()));

      if (req.aborted)
         throw new IOException("Request aborted by user");
   }

   /** These mark the response to stall the next request on, if any */
   private volatile Response early_stall = null;

   private volatile Response late_stall = null;

   private volatile Response prev_resp = null;

   /** This marks the socket output stream as still being used */
   private boolean output_finished = true;

   /**
    * sends the request over the line.
    *
    * @param req the request
    * @param con_timeout the timeout to use when establishing a socket
    *        connection; an InterruptedIOException is thrown if the procedure
    *        times out.
    * @param http_resp the HTTPResponse to add the new response to
    * @exception IOException if thrown by the socket
    * @exception InterruptedIOException if the connection is not established
    *            within the specified timeout
    * @exception ModuleException if any module throws it during the SSL-
    *            tunneling handshake
    */
   Response sendRequest(Request req, int con_timeout) throws IOException, ModuleException
   {
      ByteArrayOutputStream hdr_buf = new ByteArrayOutputStream(600);
      Response resp = null;
      boolean keep_alive;

      // The very first request is special in that we need its response
      // before any further requests may be made. This is to set things
      // like the server version.

      if (early_stall != null)
      {
         try
         {
            if (log.isDebugEnabled())
               log.debug("Early-stalling Request: " + req.getMethod() + " " + req.getRequestURI());

            synchronized (early_stall)
            {
               // wait till the response is received
               try
               {
                  early_stall.getVersion();
               }
               catch (IOException ioe)
               {
               }
               early_stall = null;
            }
         }
         catch (NullPointerException npe)
         {
         }
      }

      String[] con_hdrs = assembleHeaders(req, hdr_buf);

      // determine if the connection should be kept alive after this
      // request

      try
      {
         if (ServerProtocolVersion >= HTTP_1_1 && !Util.hasToken(con_hdrs[0], "close")
            || ServerProtocolVersion == HTTP_1_0 && Util.hasToken(con_hdrs[0], "keep-alive"))
            keep_alive = true;
         else
            keep_alive = false;
      }
      catch (ParseException pe)
      {
         throw new IOException(pe.toString());
      }

      synchronized (this)
      {
         // Sometimes we must stall the pipeline until the previous request
         // has been answered. However, if we are going to open up a new
         // connection anyway we don't really need to stall.

         if (late_stall != null)
         {
            if (input_demux != null || keepAliveUnknown)
            {
               if (log.isDebugEnabled())
                  log.debug("Stalling Request: " + req.getMethod() + " " + req.getRequestURI());

               try
               // wait till the response is received
               {
                  late_stall.getVersion();
                  if (keepAliveUnknown)
                     determineKeepAlive(late_stall);
               }
               catch (IOException ioe)
               {
               }
            }

            late_stall = null;
         }

         /*
          * POSTs must not be pipelined because of problems if the connection is
          * aborted. Since it is generally impossible to know what urls POST will
          * influence it is impossible to determine if a sequence of requests
          * containing a POST is idempotent. Also, for retried requests we don't
          * want to pipeline either.
          */
         if ((req.getMethod().equals("POST") || req.dont_pipeline) && prev_resp != null && input_demux != null)
         {

            if (log.isDebugEnabled())
               log.debug("Stalling Request: " + req.getMethod() + " " + req.getRequestURI());

            try
            // wait till the response is received
            {
               prev_resp.getVersion();
            }
            catch (IOException ioe)
            {
            }
         }

         // If the previous request used an output stream, then wait till
         // all the data has been written

         if (!output_finished)
         {
            try
            {
               wait();
            }
            catch (InterruptedException ie)
            {
               throw new IOException(ie.toString());
            }
         }

         if (req.aborted)
            throw new IOException("Request aborted by user");

         int try_count = 3;
         /*
          * what a hack! This is to handle the case where the server closes the
          * connection but we don't realize it until we try to send something. The
          * problem is that we only get IOException, but we need a finer
          * specification (i.e. whether it's an EPIPE or something else); I don't
          * trust relying on the message part of IOException (which on
          * SunOS/Solaris gives 'Broken pipe', but what on Windoze/Mac?).
          */

         while (try_count-- > 0)
         {
            try
            {
               // get a client socket

               Socket sock;
               if (input_demux == null || (sock = input_demux.getSocket()) == null)
               {
                  sock = getSocket(con_timeout);

                  if (Protocol == HTTPS)
                  {
                     if (Proxy_Host != null)
                     {
                        Socket[] sarr = {sock};
                        resp = enableSSLTunneling(sarr, req, con_timeout);
                        if (resp != null)
                        {
                           resp.final_resp = true;
                           return resp;
                        }
                        sock = sarr[0];
                     }

                     sock.setSoTimeout(con_timeout);
                     // sock = new SSLSocket(sock);
                  }

                  input_demux = new StreamDemultiplexor(Protocol, sock, this);
                  DemuxList.addToEnd(input_demux);
                  keepAliveReqLeft = keepAliveReqMax;
               }

               if (req.aborted)
                  throw new IOException("Request aborted by user");

               if (log.isDebugEnabled())
                  log.debug("Sending Request");

               // Send headers

               OutputStream sock_out = sock.getOutputStream();
               if (haveMSLargeWritesBug)
                  sock_out = new MSLargeWritesBugStream(sock_out);

               hdr_buf.writeTo(sock_out);

               // Wait for "100 Continue" status if necessary

               try
               {
                  if (ServProtVersKnown && ServerProtocolVersion >= HTTP_1_1
                     && Util.hasToken(con_hdrs[1], "100-continue"))
                  {
                     resp = new Response(req, (Proxy_Host != null && Protocol != HTTPS), input_demux);
                     resp.timeout = 60;
                     if (resp.getContinue() != 100)
                        break;
                  }
               }
               catch (ParseException pe)
               {
                  throw new IOException(pe.toString());
               }
               catch (InterruptedIOException iioe)
               {
               }
               finally
               {
                  if (resp != null)
                     resp.timeout = 0;
               }

               // POST/PUT data

               if (req.getData() != null && req.getData().length > 0)
               {
                  if (req.delay_entity > 0)
                  {
                     // wait for something on the network; check available()
                     // roughly every 100 ms

                     long num_units = req.delay_entity / 100;
                     long one_unit = req.delay_entity / num_units;

                     for (int idx = 0; idx < num_units; idx++)
                     {
                        if (input_demux.available(null) != 0)
                           break;
                        try
                        {
                           Thread.sleep(one_unit);
                        }
                        catch (InterruptedException ie)
                        {
                        }
                     }

                     if (input_demux.available(null) == 0)
                        sock_out.write(req.getData()); // he's still waiting
                     else
                        keep_alive = false; // Uh oh!
                  }
                  else
                     sock_out.write(req.getData());
               }

               if (req.getStream() != null)
                  req.getStream().goAhead(req, sock_out, 0);
               else
                  sock_out.flush();

               // get a new response.
               // Note: this does not do a read on the socket.

               if (resp == null)
                  resp = new Response(req, (Proxy_Host != null && Protocol != HTTPS), input_demux);
            }
            catch (IOException ioe)
            {

               log.error("Send request error", ioe);

               closeDemux(ioe, true);

               if (try_count == 0 || ioe instanceof UnknownHostException || ioe instanceof ConnectException
                  || ioe instanceof NoRouteToHostException || ioe instanceof InterruptedIOException || req.aborted)
                  throw ioe;

               log.info("Retrying request");
               continue;
            }

            break;
         }

         prev_resp = resp;

         // close the stream after this response if necessary

         if ((!keepAliveUnknown && !doesKeepAlive) || !keep_alive || (keepAliveReqMax != -1 && keepAliveReqLeft-- == 0))
         {
            input_demux.markForClose(resp);
            input_demux = null;
         }
         else
            input_demux.restartTimer();

         if (keepAliveReqMax != -1)

            if (log.isDebugEnabled())
               log.debug("Number of requests left: " + keepAliveReqLeft);

         /*
          * We don't pipeline the first request, as we need some info about the
          * server (such as which http version it complies with)
          */
         if (!ServProtVersKnown)
         {
            early_stall = resp;
            resp.markAsFirstResponse(req);
         }

         /*
          * Also don't pipeline until we know if the server supports keep-alive's
          * or not. Note: strictly speaking, HTTP/1.0 keep-alives don't mean we can
          * pipeline requests. I seem to remember some (beta?) version of
          * Netscape's Enterprise server which barfed if you tried push requests
          * down it's throat w/o waiting for the previous response first. However,
          * I've not been able to find such a server lately, and so I'm taking the
          * risk and assuming we can in fact pipeline requests to HTTP/1.0 servers.
          */
         if (keepAliveUnknown ||
         // We don't pipeline POST's ...
            !IdempotentSequence.methodIsIdempotent(req.getMethod()) || req.dont_pipeline || // Retries
            // disable
            // pipelining
            // too
            neverPipeline) // Emergency measure: prevent all pipelining
         {
            late_stall = resp;
         }

         /*
          * If there is an output stream then just tell the other threads to wait;
          * the stream will notify() when it's done. If there isn't any stream then
          * wake up a waiting thread (if any).
          */
         if (req.getStream() != null)
            output_finished = false;
         else
         {
            output_finished = true;
            notify();
         }

         // Looks like were finally done
         if (log.isDebugEnabled())
            log.debug("Request sent");
      }

      return resp;
   }

   /**
    * Gets a socket. Creates a socket to the proxy if set, or else to the actual
    * destination.
    *
    * @param con_timeout if not 0 then start a new thread to establish the the
    *        connection and join(con_timeout) it. If the join() times out an
    *        InteruptedIOException is thrown.
    */
   private Socket getSocket(int con_timeout) throws IOException
   {
      Socket sock = null;

      String actual_host;
      int actual_port;

      if (Proxy_Host != null)
      {
         actual_host = Proxy_Host;
         actual_port = Proxy_Port;
      }
      else
      {
         actual_host = Host;
         actual_port = Port;
      }

      if (log.isDebugEnabled())
         log.debug("Creating Socket: " + actual_host + ":" + actual_port);

      if (con_timeout == 0) // normal connection establishment
      {
         if (Socks_client != null)
            sock = Socks_client.getSocket(actual_host, actual_port);
         else
         {
            // try all A records
            InetAddress[] addr_list = InetAddress.getAllByName(actual_host);
            for (int idx = 0; idx < addr_list.length; idx++)
            {
               try
               {
                  if (LocalAddr == null)
                     sock = new Socket(addr_list[idx], actual_port);
                  else
                     sock = new Socket(addr_list[idx], actual_port, LocalAddr, LocalPort);
                  break; // success
               }
               catch (SocketException se)
               {
                  if (idx == addr_list.length - 1)
                     throw se; // we tried them all
               }
            }
         }
      }
      else
      {
         EstablishConnection con = new EstablishConnection(actual_host, actual_port, Socks_client);
         con.start();
         try
         {
            con.join(con_timeout);
         }
         catch (InterruptedException ie)
         {
         }

         if (con.getException() != null)
            throw con.getException();
         if ((sock = con.getSocket()) == null)
         {
            con.forget();
            if ((sock = con.getSocket()) == null)
               throw new InterruptedIOException("Connection establishment timed out");
         }
      }

      return sock;
   }

   /**
    * Enable SSL Tunneling if we're talking to a proxy. See ietf draft
    * draft-luotonen-ssl-tunneling-03 for more info.
    *
    * @param sock the socket
    * @param req the request initiating this connection
    * @param timeout the timeout
    * @return the proxy's last response if unsuccessful, or null if tunnel
    *         successfuly established
    * @exception IOException
    * @exception ModuleException
    */
   private Response enableSSLTunneling(Socket[] sock, Request req, int timeout) throws IOException, ModuleException
   {
      // copy User-Agent and Proxy-Auth headers from request

      Vector hdrs = new Vector();
      for (int idx = 0; idx < req.getHeaders().length; idx++)
      {
         String name = req.getHeaders()[idx].getName();
         if (name.equalsIgnoreCase("User-Agent") || name.equalsIgnoreCase("Proxy-Authorization"))
            hdrs.addElement(req.getHeaders()[idx]);
      }

      // create initial CONNECT subrequest

      NVPair[] h = new NVPair[hdrs.size()];
      hdrs.copyInto(h);
      Request connect = new Request(this, "CONNECT", Host + ":" + Port, h, null, null, req.allowUI());
      connect.internal_subrequest = true;

      ByteArrayOutputStream hdr_buf = new ByteArrayOutputStream(600);
      HTTPResponse r = new HTTPResponse(gen_mod_insts(), timeout, connect);

      // send and handle CONNECT request until successful or tired

      Response resp = null;

      while (true)
      {
         handleRequest(connect, r, resp, true);

         hdr_buf.reset();
         assembleHeaders(connect, hdr_buf);

         if (log.isDebugEnabled())
            log.debug("Sending SSL-Tunneling Subrequest");

         // send CONNECT

         hdr_buf.writeTo(sock[0].getOutputStream());

         // return if successful

         resp = new Response(connect, sock[0].getInputStream());
         if (resp.getStatusCode() == 200)
            return null;

         // failed!

         // make life easy: read data and close socket

         try
         {
            resp.getData();
         }
         catch (IOException ioe)
         {
         }
         try
         {
            sock[0].close();
         }
         catch (IOException ioe)
         {
         }

         // handle response

         r.set(connect, resp);
         if (!r.handleResponse())
            return resp;

         sock[0] = getSocket(timeout);
      }
   }

   /**
    * This writes out the headers on the <var>hdr_buf</var>. It takes special
    * precautions for the following headers:
    * <DL>
    * <DT>Content-type<DI>This is only written if the request has an entity. If
    * the request has an entity and no content-type header was given for the
    * request it defaults to "application/octet-stream"
    * <DT>
    * Content-length<DI>This header is generated if the request has an entity
    * and the entity isn't being sent with the Transfer-Encoding "chunked".
    * <DT>
    * User-Agent <DI>If not present it will be generated with the current
    * HTTPClient version strings. Otherwise the version string is appended to
    * the given User-Agent string.
    * <DT>Connection <DI>This header is only written if no proxy is used. If no
    * connection header is specified and the server is not known to understand
    * HTTP/1.1 or later then a "Connection: keep-alive" header is generated.
    * <DT>Proxy-Connection<DI>This header is only written if a proxy is used. If
    * no connection header is specified and the proxy is not known to understand
    * HTTP/1.1 or later then a "Proxy-Connection: keep-alive" header is
    * generated.
    * <DT>Keep-Alive <DI>This header is only written if the Connection or
    * Proxy-Connection header contains the Keep-Alive token.
    * <DT>
    * Expect <DI>If there is no entity and this header contains the
    * "100-continue" token then this token is removed. before writing the
    * header.
    * <DT>TE <DI>If this header does not exist, it is created; else if the
    * "trailers" token is not specified this token is added; else the header is
    * not touched.
    * </DL>
    * Furthermore, it escapes various characters in request-URI.
    *
    * @param req the Request
    * @param hdr_buf the buffer onto which to write the headers
    * @return an array of headers; the first element contains the the value of
    *         the Connection or Proxy-Connectin header, the second element the
    *         value of the Expect header.
    * @exception IOException if writing on <var>hdr_buf</var> generates an an
    *            IOException, or if an error occurs during parsing of a header
    */
   private String[] assembleHeaders(Request req, ByteArrayOutputStream hdr_buf) throws IOException
   {
      DataOutputStream dataout = new DataOutputStream(hdr_buf);
      String[] con_hdrs = {"", ""};
      NVPair[] hdrs = req.getHeaders();

      // remember various headers

      int ho_idx = -1, ct_idx = -1, ua_idx = -1, co_idx = -1, pc_idx = -1, ka_idx = -1, ex_idx = -1, te_idx = -1, tc_idx =
         -1, ug_idx = -1;
      for (int idx = 0; idx < hdrs.length; idx++)
      {
         String name = hdrs[idx].getName().trim().toLowerCase();
         if (name.equals("host"))
            ho_idx = idx;
         else if (name.equals("content-type"))
            ct_idx = idx;
         else if (name.equals("user-agent"))
            ua_idx = idx;
         else if (name.equals("connection"))
            co_idx = idx;
         else if (name.equals("proxy-connection"))
            pc_idx = idx;
         else if (name.equals("keep-alive"))
            ka_idx = idx;
         else if (name.equals("expect"))
            ex_idx = idx;
         else if (name.equals("te"))
            te_idx = idx;
         else if (name.equals("transfer-encoding"))
            tc_idx = idx;
         else if (name.equals("upgrade"))
            ug_idx = idx;
      }

      // Generate request line and Host header

      String file = Util.escapeUnsafeChars(req.getRequestURI());
      if (Proxy_Host != null && Protocol != HTTPS && !file.equals("*"))
         dataout.writeBytes(req.getMethod() + " http://" + Host + ":" + Port + file + " " + RequestProtocolVersion
            + "\r\n");
      else
         dataout.writeBytes(req.getMethod() + " " + file + " " + RequestProtocolVersion + "\r\n");

      String h_hdr = (ho_idx >= 0) ? hdrs[ho_idx].getValue().trim() : Host;
      if (Port != URI.defaultPort(getProtocol()))
         dataout.writeBytes("Host: " + h_hdr + ":" + Port + "\r\n");
      else
         // Netscape-Enterprise has some bugs...
         dataout.writeBytes("Host: " + h_hdr + "\r\n");

      /*
       * What follows is the setup for persistent connections. We default to doing
       * persistent connections for both HTTP/1.0 and HTTP/1.1, unless we're using
       * a proxy server and HTTP/1.0 in which case we must make sure we don't do
       * persistence (because of the problem of 1.0 proxies blindly passing the
       * Connection header on). Note: there is a "Proxy-Connection" header for use
       * with proxies. This however is only understood by Netscape and Netapp
       * caches. Furthermore, it suffers from the same problem as the Connection
       * header in HTTP/1.0 except that at least two proxies must be involved. But
       * I've taken the risk now and decided to send the Proxy-Connection header.
       * If I get complaints I'll remove it again. In any case, with this header
       * we can now modify the above to send the Proxy-Connection header whenever
       * we wouldn't send the normal Connection header.
       */

      String co_hdr = null;
      if (!(ServProtVersKnown && ServerProtocolVersion >= HTTP_1_1 && co_idx == -1))
      {
         if (co_idx == -1)
         { // no connection header given by user
            co_hdr = "Keep-Alive";
            con_hdrs[0] = "Keep-Alive";
         }
         else
         {
            con_hdrs[0] = hdrs[co_idx].getValue().trim();
            co_hdr = con_hdrs[0];
         }

         try
         {
            if (ka_idx != -1 && Util.hasToken(con_hdrs[0], "keep-alive"))
               dataout.writeBytes("Keep-Alive: " + hdrs[ka_idx].getValue().trim() + "\r\n");
         }
         catch (ParseException pe)
         {
            throw new IOException(pe.toString());
         }
      }

      if ((Proxy_Host != null && Protocol != HTTPS) && !(ServProtVersKnown && ServerProtocolVersion >= HTTP_1_1))
      {
         if (co_hdr != null)
         {
            dataout.writeBytes("Proxy-Connection: ");
            dataout.writeBytes(co_hdr);
            dataout.writeBytes("\r\n");
            co_hdr = null;
         }
      }

      if (co_hdr != null)
      {
         try
         {
            if (!Util.hasToken(co_hdr, "TE"))
               co_hdr += ", TE";
         }
         catch (ParseException pe)
         {
            throw new IOException(pe.toString());
         }
      }
      else
         co_hdr = "TE";

      if (ug_idx != -1)
         co_hdr += ", Upgrade";

      if (co_hdr != null)
      {
         dataout.writeBytes("Connection: ");
         dataout.writeBytes(co_hdr);
         dataout.writeBytes("\r\n");
      }

      // handle TE header

      if (te_idx != -1)
      {
         dataout.writeBytes("TE: ");
         Vector pte;
         try
         {
            pte = Util.parseHeader(hdrs[te_idx].getValue());
         }
         catch (ParseException pe)
         {
            throw new IOException(pe.toString());
         }

         if (!pte.contains(new HttpHeaderElement("trailers")))
            dataout.writeBytes("trailers, ");

         dataout.writeBytes(hdrs[te_idx].getValue().trim() + "\r\n");
      }
      else
         dataout.writeBytes("TE: trailers\r\n");

      // User-Agent

      if (ua_idx != -1)
         dataout.writeBytes("User-Agent: " + hdrs[ua_idx].getValue().trim() + " " + version + "\r\n");
      else
         dataout.writeBytes("User-Agent: " + version + "\r\n");

      // Write out any headers left

      for (int idx = 0; idx < hdrs.length; idx++)
      {
         if (idx != ct_idx && idx != ua_idx && idx != co_idx && idx != pc_idx && idx != ka_idx && idx != ex_idx
            && idx != te_idx && idx != ho_idx)
            dataout.writeBytes(hdrs[idx].getName().trim() + ": " + hdrs[idx].getValue().trim() + "\r\n");
      }

      // Handle Content-type, Content-length and Expect headers

      if (req.getData() != null || req.getStream() != null)
      {
         dataout.writeBytes("Content-type: ");
         if (ct_idx != -1)
            dataout.writeBytes(hdrs[ct_idx].getValue().trim());
         else
            dataout.writeBytes("application/octet-stream");
         dataout.writeBytes("\r\n");

         if (req.getData() != null)
            dataout.writeBytes("Content-length: " + req.getData().length + "\r\n");
         else if (req.getStream().getLength() != -1 && tc_idx == -1)
            dataout.writeBytes("Content-length: " + req.getStream().getLength() + "\r\n");

         if (ex_idx != -1)
         {
            con_hdrs[1] = hdrs[ex_idx].getValue().trim();
            dataout.writeBytes("Expect: " + con_hdrs[1] + "\r\n");
         }
      }
      else if (ex_idx != -1)
      {
         Vector expect_tokens;
         try
         {
            expect_tokens = Util.parseHeader(hdrs[ex_idx].getValue());
         }
         catch (ParseException pe)
         {
            throw new IOException(pe.toString());
         }

         // remove any 100-continue tokens

         HttpHeaderElement cont = new HttpHeaderElement("100-continue");
         while (expect_tokens.removeElement(cont));

         // write out header if any tokens left

         if (!expect_tokens.isEmpty())
         {
            con_hdrs[1] = Util.assembleHeader(expect_tokens);
            dataout.writeBytes("Expect: " + con_hdrs[1] + "\r\n");
         }
      }

      dataout.writeBytes("\r\n"); // end of header

      return con_hdrs;
   }

   /**
    * The very first request is special in that we use it to figure out the
    * protocol version the server (or proxy) is compliant with.
    *
    * @return true if all went fine, false if the request needs to be resent
    * @exception IOException if any exception is thrown by the response
    */
   boolean handleFirstRequest(Request req, Response resp) throws IOException
   {
      // read response headers to get protocol version used by
      // the server.

      ServerProtocolVersion = String2ProtVers(resp.getVersion());
      ServProtVersKnown = true;

      /*
       * We need to treat connections through proxies specially, because many
       * HTTP/1.0 proxies do not downgrade an HTTP/1.1 response version to
       * HTTP/1.0 (i.e. when we are talking to an HTTP/1.1 server through an
       * HTTP/1.0 proxy we are mislead to thinking we're talking to an HTTP/1.1
       * proxy). We use the absence of the Via header to detect whether we're
       * talking to an HTTP/1.0 proxy, unless the status code indicates an error
       * from the proxy itself. However, this only works when the chain contains
       * only HTTP/1.0 proxies; if you have <client - 1.0 proxy - 1.1 proxy -
       * server> then this will fail too. Unfortunately there seems to be no way
       * to reliably detect broken HTTP/1.0 proxies...
       */
      int sts = resp.getStatusCode();
      if ((Proxy_Host != null && Protocol != HTTPS) && resp.getHeader("Via") == null && sts != 407 && sts != 502
         && sts != 504)
         ServerProtocolVersion = HTTP_1_0;

      //    log.warn("Protocol Version established: " + ProtVers2String(ServerProtocolVersion));

      // some (buggy) servers return an error status if they get a
      // version they don't comprehend

      if (ServerProtocolVersion == HTTP_1_0 && (resp.getStatusCode() == 400 || resp.getStatusCode() == 500))
      {
         if (input_demux != null)
            input_demux.markForClose(resp);
         input_demux = null;
         RequestProtocolVersion = "HTTP/1.0";
         return false;
      }

      return true;
   }

   private void determineKeepAlive(Response resp) throws IOException
   {
      // try and determine if this server does keep-alives

      String con;

      try
      {
         if (ServerProtocolVersion >= HTTP_1_1
            || ((((Proxy_Host == null || Protocol == HTTPS)
            && (con = resp.getHeader("Connection")) != null)
            || ((Proxy_Host != null && Protocol != HTTPS)
            && (con = resp.getHeader("Proxy-Connection")) != null))
            && Util.hasToken(con, "keep-alive")))
         {
            doesKeepAlive = true;
            keepAliveUnknown = false;
            if (log.isDebugEnabled())
               log.debug("Keep-Alive enabled");

         }
         else if (resp.getStatusCode() < 400)
            keepAliveUnknown = false;

         // get maximum number of requests

         if (doesKeepAlive && ServerProtocolVersion == HTTP_1_0 && (con = resp.getHeader("Keep-Alive")) != null)
         {
            HttpHeaderElement max = Util.getElement(Util.parseHeader(con), "max");
            if (max != null && max.getValue() != null)
            {
               keepAliveReqMax = Integer.parseInt(max.getValue());
               keepAliveReqLeft = keepAliveReqMax;

               if (log.isDebugEnabled())
                  log.debug("Max Keep-Alive requests: " + keepAliveReqMax);
            }
         }
      }
      catch (ParseException pe)
      {
      }
      catch (NumberFormatException nfe)
      {
      }
      catch (ClassCastException cce)
      {
      }
   }

   synchronized void outputFinished()
   {
      output_finished = true;
      notify();
   }

   synchronized void closeDemux(IOException ioe, boolean was_reset)
   {
      if (input_demux != null)
         input_demux.close(ioe, was_reset);

      early_stall = null;
      late_stall = null;
      prev_resp = null;
   }

   final static String ProtVers2String(int prot_vers)
   {
      return "HTTP/" + (prot_vers >>> 16) + "." + (prot_vers & 0xFFFF);
   }

   final static int String2ProtVers(String prot_vers)
   {
      String vers = prot_vers.substring(5);
      int dot = vers.indexOf('.');
      return Integer.parseInt(vers.substring(0, dot)) << 16 | Integer.parseInt(vers.substring(dot + 1));
   }

   /**
    * Generates a string of the form protocol://host.domain:port .
    *
    * @return the string
    */
   public String toString()
   {
      return getProtocol() + "://" + getHost() + (getPort() != URI.defaultPort(getProtocol()) ? ":" + getPort() : "");
   }

   private class EstablishConnection extends Thread
   {
      String actual_host;

      int actual_port;

      IOException exception;

      Socket sock;

      SocksClient Socks_client;

      boolean close;

      EstablishConnection(String host, int port, SocksClient socks)
      {
         super("EstablishConnection (" + host + ":" + port + ")");
         try
         {
            setDaemon(true);
         }
         catch (SecurityException se)
         {
         } // Oh well...

         actual_host = host;
         actual_port = port;
         Socks_client = socks;

         exception = null;
         sock = null;
         close = false;
      }

      public void run()
      {
         try
         {
            if (Socks_client != null)
               sock = Socks_client.getSocket(actual_host, actual_port);
            else
            {
               // try all A records
               InetAddress[] addr_list = InetAddress.getAllByName(actual_host);
               for (int idx = 0; idx < addr_list.length; idx++)
               {
                  try
                  {
                     if (LocalAddr == null)
                        sock = new Socket(addr_list[idx], actual_port);
                     else
                        sock = new Socket(addr_list[idx], actual_port, LocalAddr, LocalPort);
                     break; // success
                  }
                  catch (SocketException se)
                  {
                     if (idx == addr_list.length - 1 || close)
                        throw se; // we tried them all
                  }
               }
            }
         }
         catch (IOException ioe)
         {
            exception = ioe;
         }

         if (close && sock != null)
         {
            try
            {
               sock.close();
            }
            catch (IOException ioe)
            {
            }
            sock = null;
         }
      }

      IOException getException()
      {
         return exception;
      }

      Socket getSocket()
      {
         return sock;
      }

      void forget()
      {
         close = true;
      }
   }

   /**
    * M$ has yet another bug in their WinSock: if you try to write too much data
    * at once it'll hang itself. This filter therefore splits big writes up into
    * multiple writes of at most 20K.
    */
   private class MSLargeWritesBugStream extends FilterOutputStream
   {
      private final int CHUNK_SIZE = 20000;

      MSLargeWritesBugStream(OutputStream os)
      {
         super(os);
      }

      public void write(byte[] b, int off, int len) throws IOException
      {
         while (len > CHUNK_SIZE)
         {
            out.write(b, off, CHUNK_SIZE);
            off += CHUNK_SIZE;
            len -= CHUNK_SIZE;
         }
         out.write(b, off, len);
      }
   }
}
